CN203448248U - Porous polymer membrane automatic molding machine - Google Patents

Abstract

The utility model relates to a porous polymer membrane preparation device and belongs to the field of mechanical equipment. A porous polymer membrane automatic molding machine consists of a coagulating basin, a coagulating system, a liquid injection pool, a membrane spraying system, a membrane preparation plate, a transportation system, a control box and a support. The porous polymer membrane automatic molding machine adopts an automatic membrane spraying mode to prepare the membrane, a control program is set in the control box before membrane spraying is performed according to the polymer solution viscosity so as to control the moving speed of a nozzle, the length of the sprayed membrane and the spraying time during membrane spraying, the membrane spraying system is utilized for performing membrane spraying, the membrane preparation method is different from the traditional porous polymer membrane preparation method, moreover, the solution membrane prepared by the membrane spraying system is subjected to immersion and sedimentation through the coagulating basin to form the porous polymer membrane, and the formed porous polymer membrane is recycled through the transportation system, the cyclic operation of a membrane preparation process is realized without waiting, and the membrane can be continuously prepared during coagulation, so that the batch preparation of the porous polymer membrane can be realized.

Description

A kind of polymer porous film automatic moulding machine

Technical field

The utility model relates to a kind of polymer porous film Preparation equipment, especially refers to a kind of polymer porous film automatic moulding machine, belongs to plant equipment field.

Background technology

Traditional immersion precipitation inversion of phases is prepared in polyalcohol stephanoporate membrane process, main employing by hand filmed or scraper knifing, basic operational steps: preparation liquid curtain coating, to glass plate or on nonwoven, is manually filmed or doctor blade, be then frozen into needed perforated membrane in coagulating bath.The perforated membrane difficult quality that above-mentioned means process reaches standard, and automaticity is relatively low in addition, very difficult for manufacturing batch is produced.

Chinese invention patent publication number CN1669667A, open day on September 21st, 2005, a kind of plate knifing machine is disclosed, this invention provides a kind of discontinuous operation type with thickness governor motion, the plate knifing machine of elevating mechanism and coagulating tank, it both can adhere to film forming on base material, also can form the film of homogenous material, and individual film thickness of making is even, error is little, and precision is high, but due to when scraping different films, scraper needs often to clean, very inconvenient while regulating scraper height; Often completing in addition knifing all needs to readjust the position of scraper, at solidificating period, needs to wait for, can not continuous circulation operation, and automaticity is not high.

Chinese invention patent publication number CN 102240627 A, open day on November 16th, 2011, disclose based on monolithic processor controlled automatic flat-plate knifing machine, this invention provides a kind of and has comprised parameter setting and aobvious depending on circuit, temperature survey and control circuit, Electric Machine Control and driving circuit and mechanical drive department, be grouped into based on monolithic processor controlled automatic knifing machine, can realize temperature controls, scraper comes and goes the actions such as automatic knifing, but whole knifing machine does not have automatic coagulation system, scraper is also manual adjustment micrometer head, therefore cannot form complete filming technology chain.

Chinese invention patent publication number CN 102527589 A, open day on 07 04th, 2012, a kind of plate knifing machine is disclosed, it is a kind of with automatic liquid-dropping mechanism that this invention provides, adopt the plate knifing machine of METAL HEATING PROCESS silk as the temperature control regulating system of heating source that gather, can be adjusted to according to demand film temperature, substrate surface temperature is even, after film forming, can directly be placed in heat treatment on knifing machine, after avoiding in the past knifing, mobile polyalcohol stephanoporate film substrate is heat-treated the damage bringing, this same equipment can only provide the part technique of masking, scraper

Regulate more difficultly, film precision and the uniformity of preparation are difficult to reach requirement.

Utility model content

For the problems referred to above, the utility model object is to provide a kind of employing nozzle spray film mode masking, by size and the thickness parameter of the film on control panel are set, automatically regulate spray film height, movement velocity, length and spraying number of times, complete spray film, then solution film is entered to the polymer porous film automatic moulding machine of coagulating basin curing molding by transportation system and coagulation system.To achieve these goals, the utility model has been taked following technical scheme:

A kind of polymer porous film automatic moulding machine, the automatic Membrane jetter of polymer porous film is by coagulating basin, coagulation system, fluid injection pond, spray film system, masking plate, transportation system, control cabinet, support forms, support is four, two is one group, symmetrical along horizontal median axis, coagulating basin and each end face of fluid injection pond are separately fixed on four supports, fluid injection pond is positioned at coagulating basin top, the overhanging extension plate of coagulating basin upper surface, spray film system and control cabinet are separately fixed on support side, spray film system is positioned at coagulating basin extension plate top, control cabinet is positioned at coagulating basin extension plate below, transportation system is fixed on coagulating basin and extension board upper surface, coagulation system is fixedly mounted on the lower surface of fluid injection pond.

Described coagulation system is by solidifying air cylinder fixed plate, solidify cylinder, rotary cylinder, masking plate positioning cylinder, chuck, location thin plate forms, solidifying air cylinder fixed plate is two, solidifying cylinder is fixedly mounted between the solid air cylinder fixed plate of two clottings, solidified gas cylinder piston rod below is fixedly connected with rotary cylinder, rotary cylinder below is fixedly connected with chuck, chuck bilateral symmetry is provided with U-shaped groove, chuck upper surface bilateral symmetry is fixed with masking plate positioning cylinder, masking plate positioning cylinder piston rod is arranged in the U-shaped groove of chuck, masking plate positioning cylinder piston-rod lower end is fixed with location thin plate.

Described transportation system reclaims plate by finished film, rolling wheel guide rails, transport guide rails, transportation slide block, masking platform, vacuum generator, reclaim cylinder, leading screw installing plate, transportation leading screw, transportation shaft coupling, motor mounting plate, transportation motor forms, transport guide rails and transportation leading screw are parallel to each other, be symmetricly set on coagulating basin and extension plate top, transportation leading screw two ends are fixed by leading screw installing plate, two rolling wheel guide rails are parallel to each other, be symmetricly set on coagulating basin and extension plate top, between transport guide rails and transportation leading screw, parallel with transportation leading screw with transport guide rails, reclaim cylinder and be fixed on coagulating basin extension plate top, be positioned at the centre position of two rolling wheel guide rails, finished film reclaims the centre position that plate activity is positioned at two rolling wheel guide rails, one end that finished film reclaims plate is fixed on recovery cylinder piston rod termination, masking platform is arranged on and reclaims cylinder top, it is sliding that masking platform lower surface both sides are fixedly installed transportation

Piece and sleeve nut, being placed in transport guide rails of transportation slide block activity, sleeve nut and the engagement of transportation leading screw, masking platform center has an installing hole, vacuum generator is through installing hole, be arranged on masking platform top, transportation motor is fixed on coagulating basin top by motor mounting plate, and transportation machine shaft is fixedly connected with transportation leading screw one end by transportation shaft coupling.

Described spray film system is by Z-direction motor, liquid injection pipe, Z-direction fixed head, reservoir, Z-direction guide rail, Z-direction shaft coupling, Z-direction slide block, Z-direction leading screw fixed head, Z-direction leading screw, Y-direction leading screw, Y-direction guide rail, Y-direction leading screw fixed head, Y-direction fixed head, nozzle, Y-direction motor, Y-direction shaft coupling, Y-direction slide block forms, two Y-direction guide rails are parallel to each other, be fixed on Y-direction fixed head end face both sides, Y-direction leading screw is arranged on Y-direction guide rail centre position, Y-direction leading screw is fixed on Y-direction fixed head by Y-direction leading screw fixed head, Y-direction motor is fixed on Y-direction fixed head by installing plate, Y-direction machine shaft is fixedly connected with Y-direction leading screw one end by Y-direction shaft coupling, four every two of Y-direction slide blocks are one group, symmetrical movable being placed on two Y-direction guide rails respectively, sleeve nut and the engagement of Y-direction leading screw, Z-direction fixed head is fixedly installed on sleeve nut and four Y-direction slide blocks, Z-direction guide rail is parallel to each other, be fixed on Z-direction fixed head end face both sides, Z-direction leading screw is arranged on Z-direction guide rail centre position, Z-direction leading screw is fixed on Z-direction fixed head by Z-direction leading screw fixed head, Z-direction motor is fixed on Z-direction fixed head by installing plate, Z-direction machine shaft is fixedly connected with Z-direction leading screw one end by Z-direction shaft coupling, two Z-direction slide blocks are movable being placed on Z-direction guide rail respectively, slide block and the engagement of Z-direction leading screw, reservoir is fixed on Z-direction slide block and sleeve nut, the upper end of reservoir is provided with liquid injection pipe, the lower end of reservoir is provided with nozzle.

Transportation motor, Y-direction motor, Z-direction motor is linked in control cabinet by wire respectively, solidifies cylinder, rotary cylinder, masking plate positioning cylinder, vacuum generator, in the magnetic valve in the tracheae difference Access Control case of recovery cylinder, magnetic valve is external gas source respectively.

Owing to having adopted above technical scheme, a kind of polymer porous film automatic moulding machine of the present utility model has following advantage:

(1) the utility model is set up the spray film system that YZ sets up to platform, adopt spray film mode automatically, according to the size of polymer solution viscosity, setting program in spray membrane process, the movement velocity of the nozzle while controlling spray film, spray film length and spraying number of times, thickness adopts programme-control completely, not only can prepare regular standard polymers perforated membrane, also can prepare polymer porous film in irregular shape, in whole film-forming process, without human intervention, there is not mechanical system backhaul, location equal error, make masking more even, precision is higher, is different from traditional

The mode of scraper polymer porous film processed and manual polymer porous film processed.

(2) polymer porous film automatic moulding machine of the present utility model has used solution film prepared by the spray film system coagulating bath immersion precipitation in coagulating basin to form polymer porous film, the polymer porous film of moulding reclaims finished product through transportation system, realized the cycling of the operation of masking, without masking, wait for, in process of setting, can continue masking.

(3) the utility model adopts vacuum generator to carry out vacuum suction location, and positioning precision is high, in spray membrane process without position error with rock, be also not easy glass or pottery to cause damage;

Polymer porous film automatic moulding machine of the present utility model is reasonable in design, compact conformation, and automaticity is high, can realize the batch preparation of polymer porous film.

Accompanying drawing explanation

Fig. 1 is the front view of the utility model polymer porous film automatic moulding machine

Fig. 2 is the structural representation of the utility model polymer porous film automatic moulding machine coagulation system

Fig. 3 is the utility model polymer porous film automatic moulding machine coagulation system masking plate positioning device schematic diagram

Fig. 4 is the structural representation of the utility model polymer porous film automatic moulding machine transportation system

Fig. 5 is the structural representation of the utility model polymer porous film automatic moulding machine spray film system

Fig. 6 is Fig. 5 side view

the specific embodiment:

Below in conjunction with accompanying drawing, the technical solution of the utility model is described in further detail.

See accompanying drawing

A kind of polymer porous film automatic moulding machine is by coagulating basin 1, coagulation system 2, fluid injection pond 3, spray film system 4, masking plate 5, transportation system 6, control cabinet 7, support 8 forms, support 8 is four, two is one group, symmetrical along horizontal median axis, coagulating basin 1 and fluid injection pond 3 each end faces are separately fixed on four supports 8, in coagulating basin 1, be placed with automatic heating device, when temperature changes, make it pass through automatically heating to the coagulating bath in coagulating basin 1 of control cabinet, fluid injection pond 3 is positioned at coagulating basin 1 top, the overhanging extension plate of coagulating basin 1 upper surface, spray film system 4 and control cabinet 7 are separately fixed on support 8 sides, spray film system 4 is positioned at coagulating basin 1 extension plate top, control cabinet 7 is positioned at coagulating basin 1 extension plate below, transportation system 6 is fixed on coagulating basin 1 and extension board upper surface, coagulation system 2 is fixedly mounted on 3 lower surfaces of fluid injection pond.

Described coagulation system is by solidifying air cylinder fixed plate 9, solidify cylinder 10, rotary cylinder 11, masking plate positioning cylinder 12, chuck 13, location thin plate 14 forms, solidifying air cylinder fixed plate 9 is two, air cylinder fixed plate 9 upper surfaces that solidify on upper strata are fixedly mounted under 3 lower surfaces of fluid injection pond, solidifying cylinder 10 is fixedly mounted between the solid air cylinder fixed plate 9 of two clottings, solidify cylinder 10 piston rod belows and be fixedly connected with rotary cylinder 11, rotary cylinder 11 belows are fixedly connected with chuck 13, the rotatable certain angle of rotary cylinder 11, 90 degree or-90 degree, drive chuck 13 and masking plate 5 to rotate, be mainly used in avoiding some interference in transportation system, chuck 13 bilateral symmetry are provided with U-shaped groove, chuck 13 upper surface bilateral symmetry are fixed with masking plate positioning cylinder 12, masking plate positioning cylinder 12 piston rods are arranged in the U-shaped groove of chuck 13, masking plate positioning cylinder 12 piston-rod lower ends are fixed with location thin plate 14, masking plate 5 is owing to being subject to buoyancy effect in solidification liquid, very unstable, location thin plate 14 stretches out by masking plate positioning cylinder 12 piston rods, masking plate 5 is positioned in the U-shaped groove of chuck, in the process that can allow 5 transportations of masking plate and solidify, keep stable, guarantee the quality of finished film.

Described transportation system reclaims plate 15 by finished film, rolling wheel guide rails 16, transport guide rails 17, transportation slide block 18, masking platform 19, vacuum generator 20, reclaim cylinder 21, leading screw installing plate 22, transportation leading screw 23, transportation shaft coupling 24, motor mounting plate 25, transportation motor 26 forms, transport guide rails 17 and transportation leading screw 23 are parallel to each other, be symmetricly set on coagulating basin 1 and extension plate top, transportation leading screw 23 two ends are fixing by leading screw installing plate 22, two rolling wheel guide rails 16 are parallel to each other, be symmetricly set on coagulating basin 1 and extension plate top, between transport guide rails 17 and transportation leading screw 23, parallel with transportation leading screw 23 with transport guide rails 17, rolling wheel guide rails 16 is mainly used for can reducing by the roller on guide rail the friction of masking plate 5 and contact-making surface when reclaiming masking plate 5, can reclaim stably, reduce the collision when reclaiming simultaneously.Reclaim cylinder 21 and be fixed on coagulating basin 1 extension plate top, be positioned at the centre position of two rolling wheel guide rails 16, finished film reclaims the centre position that plate 15 activities are positioned at two rolling wheel guide rails 16, one end that finished film reclaims plate 15 is fixed on recovery cylinder 21 piston rod ends, masking platform 19 is arranged on and reclaims cylinder 21 tops, masking platform 19 lower surface both sides are fixedly installed transportation slide block 18 and sleeve nut, being placed in transport guide rails 17 of transportation slide block 18 activities, sleeve nut and 23 engagements of transportation leading screw, masking platform 19 centers have an installing hole, vacuum generator 20 is through installing hole, be arranged on masking platform 19 tops, because the preparation of most polymers perforated membrane is all to complete on glass plate or ceramic wafer, if adopt machinery location, easily cause glass or pottery damaged, so adopt vacuum generator 20 location.Transportation motor 26 is fixed on coagulating basin 1 top by motor mounting plate 25, and 26 rotating shafts of transportation motor are fixedly connected with transportation leading screw 23 one end by transportation shaft coupling 24.

Described spray film system is by Z-direction motor 27, liquid injection pipe 28, Z-direction fixed head 29, reservoir 30, Z-direction guide rail 35, Z-direction shaft coupling 39, Z-direction slide block 40, Z-direction leading screw fixed head 41, Z-direction leading screw 43, Y-direction leading screw 31, Y-direction guide rail 32, Y-direction leading screw fixed head 33, Y-direction fixed head 34, nozzle 36, Y-direction motor 37, Y-direction shaft coupling 38, Y-direction slide block 42 forms, two Y-direction guide rails 32 are parallel to each other, be fixed on Y-direction fixed head 34 end face both sides, Y-direction leading screw 31 is arranged on Y-direction guide rail 32 centre positions, Y-direction leading screw 31 is fixed on Y-direction fixed head 34 by Y-direction leading screw fixed head 33, Y-direction motor 37 is fixed on Y-direction fixed head 34 by installing plate, 37 rotating shafts of Y-direction motor are fixedly connected with Y-direction leading screw 31 one end by Y-direction shaft coupling 38, four every two of Y-direction slide blocks 42 are one group, symmetrical movable being placed on two Y-direction guide rails 32 respectively, sleeve nut and 31 engagements of Y-direction leading screw, Z-direction fixed head 29 is fixedly installed on sleeve nut and four Y-direction slide blocks 42, Z-direction guide rail 35 is parallel to each other, be fixed on Z-direction fixed head 29 end face both sides, Z-direction leading screw 43 is arranged on Z-direction guide rail 35 centre positions, Z-direction leading screw 43 is fixed on Z-direction fixed head 29 by Z-direction leading screw fixed head 41, Z-direction motor 27 is fixed on Z-direction fixed head 29 by installing plate, 27 rotating shafts of Z-direction motor are fixedly connected with Z-direction leading screw 43 one end by Z-direction shaft coupling 39, two Z-direction slide blocks 40 are movable being placed on Z-direction guide rail 35 respectively, slide block and 43 engagements of Z-direction leading screw, reservoir 30 is fixed on Z-direction slide block 40 and sleeve nut, the upper end of reservoir 30 is provided with liquid injection pipe 28, the lower end of reservoir 30 is provided with nozzle 36.

Transportation motor 26, Y-direction motor 37, Z-direction motor 27 is linked in control cabinet 7 by wire respectively, solidify cylinder 10, rotary cylinder 11, masking plate positioning cylinder 12, vacuum generator 20, in the magnetic valve in the tracheae difference Access Control case 7 of recovery cylinder 21, magnetic valve is external gas source respectively.

The operation principle of the utility model polymer porous film automatic moulding machine is:

First masking plate 5 is placed on the masking platform 19 of shipping platform, on control cabinet 7, set polymer porous film preparation parameter, start start button, control cabinet 7 sends signal, vacuum generator 20 is connected source of the gas, form vacuum, masking plate 5 is adsorbed on masking platform 19, now transport motor 26 and receive control cabinet 7 signals, beginning is to the motion of spray diaphragm area, reach after spray diaphragm area, according to the preparation parameter of setting, Y-direction motor 37 drives Z-direction fixed head 29 to move to spray film starting point, Z-direction motor 27 is adjusted to certain position height automatically by nozzle 36, solution in fluid injection pond 3 enters in reservoir 30 by liquid injection pipe 28, nozzle 36 at the uniform velocity sprays solution, simultaneously by transportation motor 26, the interlock effect of Y-direction motor 37 and Z-direction motor 27, make the above-mentioned solution film that sets parameter, after solution film preparation finishes, valve nozzles 36, Z-direction platform and Y-direction are flat

Platform resets, the programme-control transportation motor 26 of control cabinet 7 advances to solidification zone, arrive and formulate behind position, masking plate 5 enters in the chuck 13 of coagulation system 2 completely, masking plate positioning cylinder 12 piston rod setting in motions, location thin plate 14 is positioned at masking plate 5 in chuck 13U type groove subsequently, control cabinet 7 sends signal, control masking plate 5 and depart from vacuum generator 20, masking platform 19 turns back to initial position by transportation motor 26, rotary cylinder 11 rotates after 90 degree, the piston rod that solidifies cylinder 10 stretches out, masking plate 5 is put into coagulating basin 1 to carry out cooling, after setting time arrives, the piston rod that solidifies cylinder 10 reclaims, masking plate 5 emersion coagulating basins 1, masking plate positioning cylinder (12) piston rod is regained simultaneously, location thin plate 14 discharges, control cabinet 7 continues to send signal, connect external air source, reclaiming cylinder 21 piston rods reclaims, the finished film that is fixed on recovery cylinder 21 upper surfaces reclaims plate 15 and also starts to regain, masking plate 5 hooks in chuck 13 are gone out, until depart from chuck 13, masking plate 5 lower surface both ends of the surface are being rolled at rolling wheel guide rails 16, reclaiming cylinder 21 piston rods regains, masking plate 5 is taken back to masking region, single film-forming process completes.

Claims (1)

1. a polymer porous film automatic moulding machine, it is characterized in that: polymer porous film automatic moulding machine is by coagulating basin (1), coagulation system (2), fluid injection pond (3), spray film system (4), masking plate (5), transportation system (6), control cabinet (7), support (8) forms, support (8) is four, two is one group, symmetrical along horizontal median axis, coagulating basin (1) and each end face of fluid injection pond (3) are separately fixed on four supports (8), fluid injection pond (3) is positioned at coagulating basin (1) top, the overhanging extension plate of coagulating basin (1) upper surface, spray film system (4) and control cabinet (7) are separately fixed on support (8) side, spray film system (4) is positioned at coagulating basin (1) extension plate top, control cabinet (7) is positioned at coagulating basin (1) extension plate below, transportation system (6) is fixed on coagulating basin (1) and extension board upper surface, coagulation system (2) is fixedly mounted on the lower surface of fluid injection pond (3),

Described coagulation system is by solidifying air cylinder fixed plate (9), solidify cylinder (10), rotary cylinder (11), masking plate positioning cylinder (12), chuck (13), location thin plate (14) forms, solidifying air cylinder fixed plate (9) is two, solidifying cylinder (10) is fixedly mounted between the solid air cylinder fixed plate (9) of two clottings, solidify cylinder (10) piston rod below and be fixedly connected with rotary cylinder (11), rotary cylinder (11) below is fixedly connected with chuck (13), chuck (13) bilateral symmetry is provided with U-shaped groove, chuck (13) upper surface bilateral symmetry is fixed with masking plate positioning cylinder (12), masking plate positioning cylinder (12) piston rod is arranged in the U-shaped groove of chuck (13), masking plate positioning cylinder (12) piston-rod lower end is fixed with location thin plate (14),

Described transportation system reclaims plate (15) by finished film, rolling wheel guide rails (16), transport guide rails (17), transportation slide block (18), masking platform (19), vacuum generator (20), reclaim cylinder (21), leading screw installing plate (22), transportation leading screw (23), transportation shaft coupling (24), motor mounting plate (25), transportation motor (26) forms, transport guide rails (17) and transportation leading screw (23) are parallel to each other, be symmetricly set on coagulating basin (1) and extension plate top, transportation leading screw (23) two ends are fixing by leading screw installing plate (22), two rolling wheel guide rails (16) are parallel to each other, be symmetricly set on coagulating basin (1) and extension plate top, be positioned between transport guide rails (17) and transportation leading screw (23), parallel with transportation leading screw (23) with transport guide rails (17), reclaim cylinder (21) and be fixed on coagulating basin (1) extension plate top, be positioned at the centre position of two rolling wheel guide rails (16), finished film reclaims the centre position that plate (15) activity is positioned at two rolling wheel guide rails (16), one end that finished film reclaims plate (15) is fixed on recovery cylinder (21) piston rod end, masking platform (19) is arranged on and reclaims cylinder (21)

Top, masking platform (19) lower surface both sides are fixedly installed transportation slide block (18) and sleeve nut, what transportation slide block (18) was movable is placed in transport guide rails (17), sleeve nut and transportation leading screw (23) engagement, masking platform (19) center has an installing hole, vacuum generator (20) is through installing hole, be arranged on masking platform (19) top, transportation motor (26) is fixed on coagulating basin (1) top by motor mounting plate (25), the rotating shaft of transportation motor (26) is fixedly connected with transportation leading screw (23) one end by transportation shaft coupling (24),

Described spray film system is by Z-direction motor (27), liquid injection pipe (28), Z-direction fixed head (29), reservoir (30), Z-direction guide rail (35), Z-direction shaft coupling (39), Z-direction slide block (40), Z-direction leading screw fixed head (41), Z-direction leading screw (43), Y-direction leading screw (31), Y-direction guide rail (32), Y-direction leading screw fixed head (33), Y-direction fixed head (34), nozzle (36), Y-direction motor (37), Y-direction shaft coupling (38), Y-direction slide block (42) forms, two Y-direction guide rails (32) are parallel to each other, be fixed on Y-direction fixed head (34) end face both sides, Y-direction leading screw (31) is arranged on Y-direction guide rail (32) centre position, Y-direction leading screw (31) is fixed on Y-direction fixed head (34) by Y-direction leading screw fixed head (33), Y-direction motor (37) is fixed on Y-direction fixed head (34) by installing plate, Y-direction motor (37) rotating shaft is fixedly connected with Y-direction leading screw (31) one end by Y-direction shaft coupling (38), every two of four Y-direction slide blocks (42) are one group, symmetrical movable being placed on two Y-direction guide rails (32) respectively, sleeve nut and Y-direction leading screw (31) engagement, Z-direction fixed head (29) is fixedly installed on sleeve nut and four Y-direction slide blocks (42), Z-direction guide rail (35) is parallel to each other, be fixed on Z-direction fixed head (29) end face both sides, Z-direction leading screw (43) is arranged on Z-direction guide rail (35) centre position, Z-direction leading screw (43) is fixed on Z-direction fixed head (29) by Z-direction leading screw fixed head (41), Z-direction motor (27) is fixed on Z-direction fixed head (29) by installing plate, Z-direction motor (27) rotating shaft is fixedly connected with Z-direction leading screw (43) one end by Z-direction shaft coupling (39), two Z-direction slide blocks (40) are being placed on Z-direction guide rail (35) of activity respectively, slide block and Z-direction leading screw (43) engagement, reservoir (30) is fixed on Z-direction slide block (40) and sleeve nut, the upper end of reservoir (30) is provided with liquid injection pipe (28), the lower end of reservoir (30) is provided with nozzle (36),

Transportation motor (26), Y-direction motor (37), Z-direction motor (27) is linked in control cabinet (7) by wire respectively, solidify cylinder (10), rotary cylinder (11), masking plate positioning cylinder (12), vacuum generator (20), in magnetic valve in the tracheae difference Access Control case (7) of recovery cylinder (21), magnetic valve is external gas source respectively.

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