CN102049836A - Two-component liquid silicone injection-molding complete equipment - Google Patents

Abstract

The invention discloses two-component liquid silicone injection-molding complete equipment which aims to solve the technical problem that the equipment needs to precisely inject two-component liquid silicone materials. The two-component liquid silicone injection-molding complete equipment comprises a main machine and a charging system, wherein the main machine comprises a template assembly, an injection mechanism, a sliding plate mechanism, an upper mold, lower left and right molds, a cold runner mechanism, an ejection mechanism, an electrical cabinet arranged at the right rear part of a rack, an electrical cabinet, an operating electrical cabinet, an oil box, a positioning system, a fast cylinder, a main oil way board and an injecting oil way board. The rear part of the electrical cabinet is connected and fixed with the right side surface of the rear part of the oil box. Compared with the prior art, the two-component liquid silicone injection-molding complete equipment is in a vertical machine structure, comprises the ejection mechanism, the cold runner mechanism, the sliding plate mechanism, the injection mechanism, a charging mechanism, a metering mechanism, a positioning mechanism and the template assembly, and carries out simultaneous injection-molding for A and B agent liquid silicone, and can greatly improve the production efficiency.

Description

The complete set of equipments of two component liquid-state silicon gel ejection formations

Technical field

The present invention relates to a kind of complete set of equipments of silica gel goods, relate in particular to the complete set of equipments of a kind of pair of component liquid-state silicon gel ejection formation.

Background technology

Along with living standards of the people improve constantly, people constantly increase the demand of goods and materials, security performance to goods and materials also proposes new requirement, at present can have only silica gel with the raw material that human body directly contacts through the unique affirmation of the World Health Organization and European Union, up to the present the performance that it is excellent does not also have other material to replace.Produce the silica gel goods in the past and can only use solid state si collagen material, because there is complex forming technology in solid-state silica gel, operation is many and need place raw material manually, production efficiency is low, goods percent defective height, be not suitable for producing in enormous quantities, the washing shrinkage height of solid-state silica gel is difficult to make high-accuracy silica gel goods simultaneously.Its distinctive character of the generation of liquid-state silicon gel raw material, nontoxic, heat-resisting, acid and alkali-resistance, weatherability, modification not, the flexible thermal thermoset material of high nerve, sulfuration back washing shrinkage is minimum, easy-formation, the good electric insulating properties, can not produce poisonous material etc. during burning, the tasteless odorless of silicon rubber, do not contain nitrosamine, many other silicon rubber of level are used in the Food Contact occasion, silicon rubber can from extremely low-100 spend to 316 the degree broad temperature ranges in use, many organic matters often can only be made the parts of black or thin shade, and silicon rubber is different with organosilicon, it can be transparent, also can manufacture very lucid and lively color, ideally to satisfy your demand, can also manufacture high transparent silica gel.Because its excellent properties that can't replace, be widely used in articles for babies in recent years, electronics, aviation, sex aids, household electrical appliance, diving gear, kitchen articles, household articles, medical treatment, beauty treatment, sports equipment, electric power is carried, seal, automobile, solar cell, great power LED is consolidated crystalline substance and fluorescent material and is touched the closedtop dress, change into silica gel progressively replacing the insulator that pottery and glass does and to make electric power conveying insulator, maintenance cost is significantly improved and reduced to performance and life-span, but prior art but can't realize the accurate ejection formation of two component liquid-state silicon gel raw materials at present, waste more seriously, make and to produce the silica gel goods in a large number.

Summary of the invention

The complete set of equipments that the purpose of this invention is to provide a kind of pair of component liquid-state silicon gel ejection formation, the technical problem that solves is to want accurate ejaculation, the metering in 1: 1 of bi-component liquid-state silicon gel raw material precision and mix and to adopt vertical structure, be convenient to produce the silica gel goods, and it is again two mode structures down that band ejects function, enhances productivity, automated production degree height and the easy operating and the goods of taking.

For solving the problems of the technologies described above, the present invention by the following technical solutions: the complete set of equipments of a kind of pair of component liquid-state silicon gel ejection formation, form by main frame and charging system; Main frame is by template assembly, ejecting mechanism, sled mechanism, mold, following left and right sides mould, cold pouring channel mechanism, ejecting mechanism, be located at the electronic box of the right back portion of frame, be located at electronic box on the frame, be located at the operation electronic box on the frame, be located at the rear portion of frame and the fuel tank that welds together with frame, be located at the hole of passing lower bolster and be installed in the following navigation system of slide, be located between lower bolster and the bottom plate and with the quick cylinder of frame central symmetry, the working connection plate and the ejaculation oil circuit board that are located at the both sides of mould cylinder cylinder body are formed; The rear portion of described electronic box and fuel tank rear portion right flank are connected and fixed;

The cope match-plate pattern lower end of described main frame is equipped with cold pouring channel mechanism, mould is installed in lower end in cold pouring channel mechanism, following left and right sides mould is located on the left and right sides slide plate of sled mechanism, be arranged on the electronic box and operation electronic box on main frame right side, described main frame is to adopt vertical structure, has two following left and right sides of mold mould structure, be provided with sled mechanism below two following left and right sides moulds, the left and right sides, lower end of sled mechanism is equipped with ejecting mechanism, the push rod of ejecting mechanism passes sled mechanism, and the goods in two following left and right sides moulds are ejected.Be fixed in the cold pouring channel mechanism in the upper end of mold, cold pouring channel mechanism is fixed on below the cope match-plate pattern in the template assembly, the top of template assembly is provided with ejecting mechanism, is provided with quantitative cylinder mechanism in ejecting mechanism rear portion one side, and the quantitative cylinder mechanism discharging opening in the described charging mechanism connects ejecting mechanism.

Charging mechanism of the present invention is made up of two liquid-state silicon gel charging mechanisms and quantitative cylinder mechanism, and the feed pipe of described liquid-state silicon gel charging mechanism connects the feeding mouth of quantitative cylinder mechanism.

Liquid-state silicon gel charging mechanism of the present invention is by dnockout frame base plate, feed pipe, the binder dish, cylinder, blast pipe, the dnockout pump, air pressure regulator, the electronic direction valve of manual direction valve of lift cylinder and dnockout pump is formed, outside at the binder dish is provided with sealed rubber pipe, steel band and clasp, cylinder is located at the both sides of binder dish, the upper end of cylinder is connected on the dnockout frame square tube, the lower end is fastened on the dnockout frame base plate, the upper end of described binder dish is provided with by screw and spring washer and is connected binder disk cover plate on the binder dish, be provided with an O type circle between binder dish and the binder disk cover plate, the binder dish, the upper end of binder disk cover plate connects the dnockout pump, the junction of dnockout pump and binder dish is provided with dnockout pump rubber cushion, described binder dish is provided with binder dish pull bar, the upper end of binder dish pull bar is connected on the dnockout frame square tube, described binder dish pull bar is provided with dnockout frame fixed head, the pump head lower end of described dnockout pump is fastened on the dnockout frame fixed head, the described dnockout frame Pressure gauge fixed head that on the cylinder upper flange, is provided with, the rear portion of dnockout pump is fastened on the dnockout frame Pressure gauge fixed head, be respectively equipped with air pressure regulator on the described dnockout frame Pressure gauge fixed head, manual direction valve of lift cylinder and the electronic direction valve of dnockout pump, described binder dish is provided with blast pipe, blast pipe is provided with manual ball valve, the lower end of described dnockout pump is provided with feed pipe, and feed pipe connects two feeding mouths of quantitative cylinder mechanism respectively.

Quantitative cylinder of the present invention mechanism is by the first quantitative cylinder cylinder body, the second quantitative cylinder cylinder body, quantitative cylinder axle core, quantitative cylinder oil cylinder, pressure sensor and pneumatic rotary ball valve are formed, quantitatively cylinder axle core is located at first respectively, in the second quantitative cylinder cylinder body, first, the lower end of the second quantitative cylinder cylinder body is respectively equipped with the first quantitative cylinder flange and the second quantitative cylinder flange, first, the second quantitative cylinder flange and first, the junction of the second quantitative cylinder cylinder body is provided with first O-ring seals, described first, the lower end of the second quantitative cylinder flange is respectively equipped with pipe joint, described pipe joint connects pressure sensor and pneumatic rotary ball valve respectively by tee pipe coupling, described both sides at quantitative cylinder flange fixed head are provided with quantitative cylinder pull bar, quantitatively the cylinder pull bar is provided with the quantitative cylinder top board that can move up and down along quantitative cylinder pull bar, be provided with the first no oily lining between described quantitative cylinder top board and the quantitative cylinder pull bar, described first, the upper end of the second quantitative cylinder cylinder body is respectively equipped with quantitative cylinder cylinder cap, quantitatively be provided with first dust ring between cylinder cylinder cap and the quantitative cylinder axle core, the upper end and first of described quantitative cylinder axle core, be respectively equipped with the first wear-resisting band and the second wear-resisting band in the second quantitative cylinder cylinder body, quantitative cylinder piston on the described and quantitative cylinder axle core is provided with the second U-shaped circle and the 3rd O shape circle, the piston rod of described quantitative cylinder oil cylinder is connected the center of quantitative cylinder top board, quantitatively cylinder oil cylinder lower flange is connected on the quantitative cylinder oil cylinder fixed head, the upper end of described quantitative cylinder pull bar is fastened on the quantitative cylinder oil cylinder fixed head, the lower end of described two pneumatic rotary ball valves is respectively equipped with the raw material delivery outlet, and described raw material delivery outlet connects ejecting mechanism respectively.

Ejecting mechanism of the present invention is by barrel assemblies, the seat cylinder component, penetrate cylinder component, oil motor and electronic ruler are formed, described gun barrel connects on the present cylinder component, the seat cylinder component connects penetrates cylinder component, electronic ruler is connected in a cylinder component and penetrates between the cylinder component, the screw rod upper end of described barrel assemblies connects penetrates cylinder component, oil motor connects on the screw rod of barrel assemblies by connecting axle, the outside of described gun barrel is provided with the gun barrel cold water pipe, be provided with the screw rod that runs through gun barrel in the gun barrel, the upper end of described screw rod connects penetrates cylinder component, the lower end of described gun barrel is provided with the second nozzle Connection Block and the first nozzle Connection Block successively, the junction of described second nozzle Connection Block and gun barrel is provided with the 2nd O type circle, the inside of the described second nozzle Connection Block is provided with bellmouth, the front end of bellmouth is provided with the nozzle through hole of UNICOM with it, the screw rod that is provided with its connecting screw rod lower end, upper end in bellmouth is penetrated head, described screw rod lower end and screw rod are penetrated and are provided with the check ring between head, describedly on the horizontal level of the first nozzle Connection Block, have a slotted hole, being provided with sealing nozzle depression bar one end in the middle of the slotted hole is fixed on the first nozzle Connection Block with screw, one side of sealing nozzle depression bar connects the nozzle cylinder by the cylinder axis connecting rod, the nozzle cylinder is by the cylinder connecting plate, cylinder seat is connected the outside of gun barrel cold water pipe, the nozzle cylinder is provided with gas-tpe fitting, be provided with closed rod in the centre bore of the described first nozzle Connection Block, closed rod is provided with the 12 O type circle, closed rod withstands the discharging opening of nozzle during operate as normal, the outside of described nozzle is provided with the nozzle cold water jacket, described front end one side at the gun barrel cold water pipe is provided with pipe joint, the middle part is provided with discharge switch contacts and thermocouple Connection Block, described upper center at gun barrel is respectively equipped with two feeding mouth joints, described two feeding mouth joints connect the raw material delivery outlet of two quantitative cylinders respectively, the upper end of described gun barrel is connected and fixed on the present cylinder component, the rear end of described screw rod connects oil motor, oil motor is connected to be penetrated on the cylinder component, the described cylinder component of penetrating is formed by penetrating cylinder, the described cylinder axle core of penetrating of penetrating cylinder is distinguished the Connection Block cylinder component, penetrate and penetrate that the cylinder piston is provided with the 3rd wear-resisting band and first lattice enclose on the cylinder axle core, penetrate on the cylinder in the both sides of penetrating cylinder, the lower end is respectively equipped with first and penetrates cylinder flange and second and penetrate the cylinder flange, described first, second penetrates and is respectively equipped with seal second dust ring on the cylinder flange, the 4th U-shaped circle, second lattice enclose and seal the 3rd O type circle of penetrating cylinder, the described piston of penetrating cylinder axle core is active in to be penetrated in the cylinder, described penetrate to be provided with in the middle of the cylinder penetrate the cylinder power transmission shaft, described penetrating on the cylinder power transmission shaft according to the last deep groove ball bearing that down has been linked in sequence, thrust ball bearing and taper roll bearing, described oil motor is by penetrating cylinder power transmission shaft connecting screw rod, the upper end of the cope match-plate pattern in the described seat cylinder component connection mode board component.

Template assembly of the present invention is by cope match-plate pattern, lower bolster, mould cylinder cylinder body and bottom plate are formed, the upper end of described cope match-plate pattern connects on the present cylinder component, the lower end connects bottom plate by Green's post, described lower bolster is connected between cope match-plate pattern and the bottom plate, the two ends of described lower bolster are provided with the lower bolster through hole, Green's post passes the lower bolster through hole, be provided with the 3rd dust ring and the second no oily lining in the described lower bolster through hole, described mould cylinder cylinder body is connected below the lower bolster, one side of described mould cylinder cylinder body is provided with oil return pipe, be provided with prefill valve between described oil return pipe and the mould cylinder cylinder body, on mould cylinder cylinder body, be provided with the fuel tap oil connection of unloading, the described mould cylinder piston that in mould cylinder cylinder body, is provided with, the lower end of mould cylinder piston be connected bottom plate above, the lower end of described mould cylinder cylinder body is provided with mould cylinder flange, mould cylinder piston is active in mould cylinder cylinder body and the mould cylinder flange, described mould cylinder flange and mould cylinder piston contact position are provided with the 4th dust ring and the 5th U-shaped circle and bumper ring, and the lower end of described cope match-plate pattern connects cold pouring channel mechanism.

Cold pouring channel of the present invention mechanism is by fixed head, last coldplate, last thermal insulation board, last heating plate, irritate mouth and the branch composition of gravying with meat or vegetables poured over rice or noodles, described upward heating plate passes thermal insulation board by screw and spring washer and is fastened on the coldplate, the described upper surface of going up coldplate is provided with groove, be evenly distributed with four branches on the groove and water through hole, have with branch on described upward thermal insulation board and the last heating plate and water the corresponding heating plate hole of lead to the hole site, described branch is gravied with meat or vegetables poured over rice or noodles and is passed heat insulation plate hole and upward heat in the plate hole, divide branch in the gravying with meat or vegetables poured over rice or noodles Kong Yufen that gravys with meat or vegetables poured over rice or noodles to water through hole and be communicated with, the gravy with meat or vegetables poured over rice or noodles two ends up and down in hole of the branch that described branch is gravied with meat or vegetables poured over rice or noodles are respectively equipped with first seal and second seal, described filling mouth is connected on the fixed head, described fixed head is provided with the fixed head through hole, the fixed head through hole is communicated with the filling mouth and groove formation raw material is poured path, be provided with between described filling mouth and the fixed head through hole and irritate the mouth seal, described lower end of going up heating plate is provided with mold.

Sled mechanism of the present invention is by positional cylinder, lower bolster, slide, two slide plate cylinders, following thermal insulation board, left skateboard and right slide plate are formed, a described left side, right slide plate is located on the slide respectively, slide is located on the lower bolster, the slide plate cylinder is located at a left side respectively, the rear and front end of right slide plate also drives a left side, right slide plate move left and right, the slide plate cylinder is fixed on lower bolster, a described left side, be respectively equipped with down thermal insulation board on the right slide plate, the left and right sides, lower-left mould is housed respectively on the following thermal insulation board, a described left side, be provided with between the right slide plate first draw runner and second draw runner and with a left side, right slide plate is connected, described positional cylinder is located under the slide, one side of the lower flange of described positional cylinder is provided with positional cylinder near piece, positional cylinder is provided with near piece and navigates to proximity switch, be provided with the location in the lower end that navigates to proximity switch and fall back on proximity switch, the positional cylinder axle core of described positional cylinder is provided with positional cylinder and closely connects sensor block, described both sides at lower bolster are respectively equipped with a slide plate left side and stop proximity switch, a slide plate left side is proximity switch at a slow speed, the slide plate right side stops proximity switch and slide plate right side proximity switch at a slow speed, the lower end of described left skateboard is provided with slide block and connects piece in the vicinity, the lower end of right slide plate is provided with the slide block right side and closely connects piece, a described left side, the lower end of right slide block is respectively equipped with ejecting mechanism.

Ejecting mechanism of the present invention is by the standard oil cylinder, liftout tank pull bar and liftout tank push rod are formed, one end of described liftout tank pull bar is fastened on the slide, the other end connects on the liftout tank oil cylinder fixed head, described liftout tank pull bar is provided with the liftout tank top board that slides up and down along the liftout tank pull bar, one end of described liftout tank push rod is fastened on the liftout tank top board, the other end is active in lower bolster, a slide and a left side, in the right slide plate, the axle core of described standard oil cylinder is fastened on the liftout tank top board by the liftout tank adpting flange, and a side of described liftout tank oil cylinder fixed head is provided with and closely connects fixed head under the liftout tank.

Be provided with two both sides that are symmetrically distributed in main mould cylinder with the center of quick cylinder between lower bolster of the present invention and the bottom plate, described quick cylinder is by quick cylinder cylinder body, cylinder axle core and cylinder piston composition fast fast, described quick cylinder piston is located in the quick cylinder cylinder body and is connected the upper end nut check of quick cylinder axle core, fast the cylinder piston is provided with two on first wear ring and the 6th U-shaped circle, one end of described quick cylinder axle core connects quick cylinder piston, the other end passes bottom plate and is fixed under the bottom plate by hold-down nut, described quick cylinder axle core is provided with two on the 9th O type circle with the junction of quick cylinder piston, the two ends of described quick cylinder cylinder body are respectively equipped with quick cylinder bonnet, quick cylinder flange, described quick cylinder flange is provided with the 7th U-shaped circle with the contact position of quick cylinder axle core, dust ring, bumper ring, the cylinder bonnet is provided with the 4th O type circle with the junction of quick cylinder cylinder body fast, and the cylinder bonnet is fastened on the lower bolster fast.

The present invention compared with prior art, adopt vertical machine structure, contain ejecting mechanism, cold pouring channel mechanism, sled mechanism, ejecting mechanism, charging mechanism, metrological service, detent mechanism and template assembly, with two component A, B agent liquid-state silicon gel while ejection formation, make it possible to enhance productivity greatly.

Description of drawings

Fig. 1-1 is a structural representation of the present invention.

Fig. 1-2 is a structural representation of the present invention.

Fig. 1-3 is a main frame rearview structural representation of the present invention.

Fig. 1-4 is a main frame front view structural representation of the present invention.

Fig. 1-5 is a side view structural representation of the present invention.

Fig. 1-6 is a main frame vertical view structural representation of the present invention.

Fig. 1-7 is a charging mechanism side view structural representation of the present invention.

Fig. 1-8 is a charging mechanism vertical view structural representation of the present invention.

Fig. 1-9 is a rack construction schematic diagram of the present invention.

Fig. 2 is a structural representation two of the present invention.

Fig. 3 is the structural representation of liquid-state silicon gel charging mechanism of the present invention.

Fig. 4 is the structural representation of quantitative cylinder of the present invention mechanism.

Fig. 5 is the structural representation of ejecting mechanism of the present invention.

Fig. 6 is the structural representation of gun barrel of the present invention.

Fig. 7 is a structural representation of penetrating cylinder component of the present invention.

Fig. 8 is the structural representation of cold pouring channel of the present invention mechanism.

Fig. 9-1 is the structural representation one of sled mechanism of the present invention and detent mechanism.

Fig. 9-2 is the structural representation two of sled mechanism of the present invention.

Figure 10 is the structural representation of positional cylinder of the present invention.

Figure 11 is the structural representation of slide plate cylinder of the present invention.

Figure 12-1 is the structural representation one of ejecting mechanism of the present invention.

Figure 12-2 is the structural representation two of ejecting mechanism of the present invention.

Figure 13 is the structural representation of liftout tank of the present invention.

Figure 14 is the structural representation of template of the present invention mechanism.

Figure 15 is the structural representation of quick cylinder of the present invention.

Figure 16 is the cylinder stereogram of penetrating of the present invention.

The specific embodiment

The invention will be further described below in conjunction with drawings and Examples.

To Fig. 1-9 and shown in Figure 2, the complete set of equipments of of the present invention pair of component liquid-state silicon gel ejection formation is made up of main frame 1 and charging system 7 as Fig. 1-1.

Described main frame 1 is by template assembly 8, ejecting mechanism 6, sled mechanism 5, mold 536, following left and right sides mould 537, cold pouring channel mechanism 4, ejecting mechanism 2, be located at the electronic box 10 of frame 14 right back portions, be located at electronic box 10 on the frame 14, be located at the operation electronic box 9 on the frame 14, be located at the rear portion of frame 14 and the fuel tank 11 that welds together with frame 14, be located at the hole of passing lower bolster and be installed in the following navigation system 12 of slide 519, be located between lower bolster 518 and the bottom plate 85 and with frame 14 centrosymmetric quick cylinders 13, the working connection plate and the ejaculation oil circuit board 16 that are located at the both sides of mould cylinder cylinder body 819 are formed; The rear portion of described electronic box 10 and fuel tank 11 rear portion right flanks are connected and fixed; Charging system 7 is made up of liquid-state silicon gel charging mechanism 71, quantitative cylinder mechanism 72.

Cold pouring channel mechanism 4 is installed below the cope match-plate pattern of main frame 1, below cold pouring channel mechanism 4, install mould 536, following left and right sides mould 537 and be arranged on the operation electronic box 9 on main frame 1 right side, the lower end of described down left and right sides mould 537 be provided with sled mechanism 5 and navigation system 12 be installed in slide 519 below, but following left and right sides mould 537 move left and right under the drive of sled mechanism 5, the both sides of sled mechanism 5 are equipped with ejecting mechanism 2, in the upper end of cold pouring channel mechanism 4 are the template assemblies 8 that contain cope match-plate pattern, above template assembly 8, be provided with ejecting mechanism 6, ejecting mechanism 6 outside sides are provided with liquid-state silicon gel charging mechanism 71, the discharging opening of described liquid-state silicon gel charging mechanism 71 connects ejecting mechanism 6,, described charging mechanism 7 is made up of two liquid-state silicon gel charging mechanisms 71 and quantitative cylinder mechanism 72.

As shown in Figure 3, described liquid-state silicon gel charging mechanism 71 of the present invention is by dnockout frame base plate 711, feed pipe 712, binder dish 718, cylinder 7112, blast pipe 7115, dnockout pump 7120, air pressure regulator 7127, the electronic direction valve 7129 of manual direction valve 7128 of lift cylinder and dnockout pump is formed, described binder dish 718 is on the top of dnockout frame base plate 711, in the cylindrical groove of binder dish 718, be provided with sealed rubber pipe 719, steel band 7110 and clasp 7111, cylinder 7112 is located at the both sides of binder dish 718, the upper end of cylinder 7112 connects dnockout frame square tube 7126, the lower end is fastened on the dnockout frame base plate 711 by screw and spring washer, be provided with in the upper end of binder dish 718 by screw and spring washer and be connected binder disk cover plate 7114 on the binder dish 718, be provided with an O type circle 7113 between binder dish 718 and the binder disk cover plate 7114, the upper end of binder dish 718 connects dnockout pump 7120, dnockout pump 7120 is provided with dnockout pump rubber cushion 715 with the junction of binder dish 718, both sides on binder dish 718 are provided with binder dish pull bar 7116, the upper end of binder dish pull bar 7116 is connected on the dnockout frame square tube 7126, on binder dish pull bar 7116, be provided with dnockout frame fixed head 7119, the pump head of dnockout pump 7120 is fastened on the dnockout frame fixed head 7119, fixing dnockout frame Pressure gauge fixed head 7121 on the upper flange of cylinder 7112, on dnockout frame Pressure gauge fixed head 7121, be respectively equipped with air pressure regulator 7127, manual direction valve 7128 of lift cylinder and the electronic direction valve 7129 of dnockout pump, describedly be provided with blast pipe 7115 in the upper end of binder dish 718 side, this blast pipe 7115 and binder dish 718 internal run-throughs, on blast pipe 7115, be provided with manual ball valve 7117, be provided with feed pipe 712 in the lower end of dnockout pump 7120, feed pipe 712 connects two feeding mouths 7226 of quantitative cylinder mechanism 72 respectively.

The liquid-state silicon gel charging mechanism adopts the high viscosity air piston pump to be connected with binder dish 718 as dnockout pump 7120, sealed rubber pipe 719, steel band 7110, clasp 7111 are housed on the binder dish 718 prevent that the silica gel raw material from leaking and sealing, and blast pipe 7115 and manual ball valve 7117 are housed get rid of air in the bucket is convenient.Controlling pneumatic dnockout pump 7120 by air pressure feeds in raw material, every machine is furnished with two silica gel A, the charging system that the B agent is such, be that bi-component is reinforced, the cylinder 7112 that both sides have two liftings to use is regulated binder dish 718 positions, regulating cylinder 7112 promptly can regulate binder dish 718 and Raw material pail is put into add on the bin, by regulating both sides cylinder 7112 high action binder dish 718 is put into Raw material pail, control the silica gel raw material of dnockout pump 7120 extracting high-viscosities by computer control pneumatic element, the binder dish can descend with the height of raw material in the bucket, originally add bin and can use 55 gallons of also available Raw material pails of 5 gallons, can change platen easily according to client's needs, be user-friendly to.This charging system adopts full air pressure control, noise floor, pollution-free.Air piston pump and both sides cylinder all adopt atmospheric pressure flow control valve and air-operated solenoid valve control, the operating pressure that can easily regulate air piston pump and both sides cylinder separately.And be provided with raw material and disclose and do not have the material warning device, main frame can sound and light alarm on earth the time at the binder dish, does not have in the prompting Raw material pail and has expected.Dnockout pump 7120 will move up and down just the liquid-state silicon gel raw material to be extracted out from the dnockout bucket through discharge nozzle 712 output silica gel are former and expect in the quantitative cylinder mechanism under the control of computer.

As shown in Figure 4, quantitative cylinder of the present invention mechanism 72 is the A material by the first quantitative cylinder cylinder body 724, the second quantitative cylinder cylinder body 7241 is the B material, quantitative cylinder axle core 727, quantitative cylinder oil cylinder 728, pressure sensor 7222 and pneumatic rotary ball valve 7224 are formed, be respectively equipped with quantitative cylinder flange fixed head 722 on the described first quantitative cylinder cylinder body 724 and the second quantitative cylinder cylinder body 7241, quantitatively cylinder axle core 727 is located at first respectively, the second quantitative cylinder cylinder body 724, in 7241, first, the second quantitative cylinder cylinder body 724,7241 lower end is respectively equipped with the first quantitative cylinder flange 721 and the second quantitative cylinder flange 7242, this is first years old, the second quantitative cylinder flange 721,7242 and first, the second quantitative cylinder cylinder body 724,7241 junction is provided with first O-ring seals 7218, first, the second quantitative cylinder flange 721,7242 lower end is respectively equipped with pipe joint 7221, pipe joint 7221 connects pressure sensor 7222 and pneumatic rotary ball valve 7224 respectively by tee pipe coupling 7223, both sides at quantitative cylinder flange fixed head 722 are provided with two quantitative cylinder pull bars 723, quantitatively cylinder pull bar 723 is provided with the quantitative cylinder top board 726 that can move up and down along quantitative cylinder pull bar 723, quantitatively be provided with the first no oily lining 7212 between cylinder top board 726 and the quantitative cylinder pull bar 723, first, the second quantitative cylinder cylinder body 724,7241 upper end is respectively equipped with quantitative cylinder cylinder cap 725, quantitatively be provided with first dust ring 7213 and second between cylinder cylinder cap 725 and the quantitative cylinder axle core 727 and wear-resistingly be with 7214, first wear-resisting the 7216 and the 3rd O type circle 7215 of being with is housed on the piston of described quantitative cylinder axle core 727, the second U-shaped circle 7217, quantitatively the rod end place flange that goes out of cylinder oil cylinder 728 is connected with quantitative cylinder top board 726, quantitatively the piston rod of cylinder oil cylinder 728 and quantitative cylinder top board 726 centers are by being threaded, the upper end of described quantitative cylinder pull bar 723 is fastened on the quantitative cylinder oil cylinder fixed head 729 by screw and spring washer, the lower end of described two pneumatic rotary ball valves 7224 is respectively equipped with the gun barrel feeding mouth end that 7243, two raw material delivery outlets 7243 of raw material delivery outlet are connected respectively to ejecting mechanism 6.

Quantitatively be to adopt two identical quantitative cylinders to guarantee A, 1: 1 equivalent of B agent in the cylinder mechanism, the pressure that adopts two pressure sensors 7222 to detect two quantitative cylinders simultaneously again guarantees consistent, guarantees A, B agent metering in 1: 1.The reinforced quantitative cylinder oil cylinder 728 that adopts is with A, and the B agent is delivered in the main frame synchronously, and certain pressure output is arranged again simultaneously.When reinforced, deliver to 721 li of quantitative cylinder flanges by A, the B agent raw material of A, the output of B agent charging mechanism, this moment is cylinder top board 726 returned original positions quantitatively, on quantitative cylinder oil cylinder fixed head 729 proximity switch is housed and is connected with computer, computer has detected this returned signal.Feeding in raw material rises quantitative cylinder axle core 727, and pressure sensor 7222 output signals are to computer simultaneously, and when the computer detected pressures arrived setting pressure, computer stopped output signal, and the dnockout pump quits work, and finishes reinforced.

As shown in Figure 5, ejecting mechanism 6 of the present invention by barrel assemblies 6400, sealing nozzle assembly 6401, seat cylinder component 602, penetrate cylinder component 605, oil motor 606 and electronic ruler 603 and form.Described barrel assemblies 6400 is connected and fixed on the present cylinder component 602 by gun barrel hold-down nut 611, seat cylinder component 602 connects penetrates cylinder component 605, electronic ruler 603 is connected in a cylinder component 602 and penetrates between the cylinder component 605, screw rod 642 upper ends in the described barrel assemblies 6400 connect penetrates cylinder component 605, oil motor 606 is by penetrating the screw rod 642 that cylinder power transmission shaft 618 connects in the barrel assemblies 6400, and seat cylinder component 602 is connected the cope match-plate pattern upper end in the template assembly 8.

As shown in Figure 6, the inside of barrel assemblies 6400 is provided with gun barrel 640 its upper ends and is provided with external screw thread, by two gun barrel hold- down nuts 611 and 602 lockings of seat cylinder component, the outside weldings of described gun barrel 640 has gun barrel cold water pipe 641, in gun barrel 640, be provided with the screw rod 642 that runs through gun barrel 640, the upper end of described screw rod 642 connects penetrates cylinder component 605, the second nozzle Connection Block 637 and the first nozzle Connection Block 635 by being threaded successively in the lower end of gun barrel 640, the second nozzle Connection Block 637 is provided with the 2nd O type circle 656 with the junction of gun barrel 640, be provided with bellmouth 6371 in the inside of the second nozzle Connection Block 637, the front end of bellmouth 6371 is provided with the nozzle through hole 6372 of UNICOM with it, the screw rod that is provided with its connecting screw rod 642 lower ends, upper end in bellmouth 6371 penetrates 657, outside, screw rod 642 lower end is provided with check ring 655, on the first nozzle Connection Block 635, be provided with sealing nozzle depression bar 658, one side of sealing nozzle depression bar 658 connects nozzle cylinder 653 by cylinder axis connecting rod 654, nozzle cylinder 653 is by cylinder connecting plate 651, cylinder seat 648 is connected the outside of gun barrel cold water pipe 641, on nozzle cylinder 653, be provided with gas-tpe fitting 652, be provided with closed rod 633 for 635 li at the first nozzle Connection Block, closed rod 633 is provided with two the 12 O type circles 670, closed rod 633 control nozzles 632 are opened and are closed, the outside of nozzle 632 is provided with nozzle cold water jacket 630, describedly be provided with pipe joint 639 in the lower end of gun barrel cold water pipe 641 side, the middle part is provided with discharge switch contacts 643 and thermocouple Connection Block 644, thermocouple Connection Block 644 is connected on the gun barrel cold water pipe 641 by thermocouple seat 645, upper rear end at gun barrel 640 is respectively equipped with two feeding mouth joints 646, described two feeding mouth joints 646 connect two raw material delivery outlets 7243 respectively, the end of described gun barrel 640 is connected and fixed on the present cylinder component 602, the upper end of described screw rod 642 connects oil motor 606, and oil motor 606 is connected to be penetrated on the cylinder component 605.Screw rod 642 is designed to the function that not only raw material can have been carried but also can mixed and stir, and liquid-state silicon gel raw material A, B agent are mixed.

As shown in Figure 7, the described cylinder component 605 of penetrating is penetrated cylinder 620 by two and is formed, two cylinder axle cores 622 of penetrating of penetrating cylinder 620 are distinguished Connection Block cylinder components 602, penetrating cylinder axle core 622 is provided with and penetrates the cylinder piston, penetrating the cylinder piston is provided with the 3rd wear-resisting 627 and first lattice of being with and encloses 628, be respectively equipped with first penetrates cylinder flange 660 and second and penetrates cylinder flange 663 at the two ends of penetrating cylinder 620, first, second penetrates cylinder flange 660, be respectively equipped with sealing on 663 and penetrate second dust ring 623 of cylinder axle core 622, the 4th U-shaped circle 624, second lattice enclose 625 and sealing penetrate the 3rd O type circle 626 of cylinder 620, penetrating the cylinder piston is active in and penetrates in the cylinder 620, penetrate cylinder 620 middle being provided with at two and penetrate cylinder power transmission shaft 618, the outside of penetrating cylinder power transmission shaft 618 according on be connected with deep groove ball bearing 607, thrust ball bearing 608 and taper roll bearing 609, oil motor 606 is installed in the middle upper end of penetrating cylinder 620, oil motor 606 with penetrate cylinder 620 junctions and be provided with oil motor rubber cushion 621, oil motor 606 is by penetrating cylinder power transmission shaft 618 connecting screw rods 642, at screw rod 642 and penetrate to be provided with between the cylinder power transmission shaft 618 and penetrate cylinder clasp 616 by what screw and spring washer were fastened on oil motor seat 664 lower ends, the lower end of penetrating cylinder clasp 616 is provided with to be fastened on to penetrate by screw and spring washer penetrates cylinder semi-ring briquetting 613 on the cylinder clasp 616, penetrating cylinder clasp 616 and penetrating between the cylinder semi-ring briquetting 613, penetrating cylinder power transmission shaft 618 lower ends is provided with and penetrates cylinder semi-ring 617, in penetrating cylinder clasp 616, also be provided with the taper roll bearing adjustment ring 610 of regulating taper roll bearing 609, described being provided with in the junction of penetrating cylinder axle core 622 and seat cylinder component 602 penetrated cylinder locking nut 612, this is penetrated cylinder locking nut 612 and is connected and fixed on the present cylinder component 602 by screw and spring washer, penetrate cylinder electronic ruler connecting plate 629 penetrating to be provided with on the side of cylinder 620 by what screw was connected and fixed, electronic ruler 603 is fastened on to be penetrated on the cylinder electronic ruler connecting plate 629.Penetrate and be drilled with deep hole in the cylinder and be used to walk hydraulic oil, need not outsidely connect oil pipe, specifically connect oil pipe and illustrate to see accompanying drawing 16 with the position that extremely blocks

The A that sends here when quantitative cylinder, B agent silica gel raw material adds 640 li in gun barrel simultaneously, adopt dynamic hybrid technology, be connected with spline on the screw rod 642 by the spline on the power transmission shaft with oil motor 606, with three bearing taper roll bearings 609, thrust ball bearing 608, deep groove ball bearing 607 supports and eliminates axial force and radial load, the spline driving torque drives screw rod 642 rotations, because feed pressure and screw rod 642 rotations act on the screw rod 642 simultaneously, make screw rod 642 and penetrate a cylinder mechanism power that retreats of generation and retreat, raw material just is transferred and mixes stirring for 642 li at screw rod, guarantee A, the B agent mixes, when retreating, screw rod 642 detects backward travel with electronic ruler 603, then this signal is delivered in the computer, computer judges whether to arrive this value according to setting value, just stop output signal when reaching and make reinforced stopping, reaching the purpose of metering.

Because liquid-state silicon gel is the thermosetting raw material, in whole transferring raw material system, all to control temperature, being added with thermocouple Connection Block 644 on gun barrel 640 links to each other with computer to fetch and detects gun barrel 640 temperature, during operate as normal in computer design temperature be 25 ℃, and on gun barrel 640 and nozzle 632, be added with gun barrel cold water pipe 641 and nozzle cold water jacket 630, it is to be welded on gun barrel and the nozzle, guarantee weld strength and sealing property, in gun barrel and nozzle, to walk cooling circulating water, guarantee that temperature is 25 ℃ and prevents that the silica gel raw material from hardening in gun barrel, do not circulate for preventing that cooling water from hindering for some reason, in the cool cycles waterpipe of gun barrel 640 and nozzle 632, be added with the discharge switch, if water do not have the circulating water flow switch will output signal in computer, computer detects this signal will send sound and light alarm, and point out on screen with Chinese character, the maintenance personal is in time overhauled, influence is produced in order to avoid the silica gel raw material hardens in gun barrel and nozzle.

Penetrate and the reinforced electronic ruler that adopts, hydraulic drive is simultaneously adopted closed loop to detect and is penetrated pressure and flow, guarantees that it penetrates precision and charging precision, and to guarantee to penetrate precision accurate at every turn, guarantees that every mechanograph precision is the same, in a large number long-term production.

Nozzle cylinder 653 adopts stainless steel cylinder, and the piston rod of cylinder presses closed rod 633 to seal raw material downwards in nozzle by cylinder axis connecting rod 654, sealing nozzle depression bar 658.

653 actions of nozzle cylinder are controlled by computer program control air-powered electromagnetic reversal valve, nozzle cylinder 653 upper end air inlets when sealing raw material, cylinder piston rod moves down, sealing nozzle depression bar 658 is moved down depress closed rod 633, the closed rod 633 lower end conical surfaces are pushed down nozzle 632, and raw material can not flow out.

When reinforced, stainless nozzle cylinder 653 is under computer control, and direct exhaust is all opened in solenoid directional control valve air inlet and exhaust, that is to say that this makes this nozzle cylinder 653 inoperative.Because of closed rod 633 and nozzle 632 are reserved material channel, closed rod 633 lower ends are conical surfaces, relying on ejaculation pressure to promote raw material moves down, thrust retreats it to make the closed rod 633 lower end conical surfaces produce upwards, raw material injects in the mould cavity from nozzle 632 high pressure, finish and penetrate action, in the upper end air inlet of computer control lower cylinder closed rod 633 is moved down then and seal raw material.

Cause Lou material for preventing that raw material from upwards flowing along closed rod 633, on closed rod 633, adorned two O RunddichtringOs and done sealing.

As shown in Figure 8, cold pouring channel of the present invention mechanism 4 is by fixed head 411, last coldplate 412, last thermal insulation board 413, last heating plate 416, filling mouth 48 and branch gravy with meat or vegetables poured over rice or noodles 43, seal 41,42,49 form, the described heating plate 416 of going up is fastened on the coldplate 412 thermal insulation board 413 on the therebetween by screw and spring washer, on last thermal insulation board 413 and last heating plate 416, open four branches and water through hole 4132, last heating plate hole 4161, dividing gravys with meat or vegetables poured over rice or noodles 43 passes heat insulation plate hole 4131 and goes up and heat plate hole 4161, divide the branches gravy with meat or vegetables poured over rice or noodles in 43 hole 431 of gravying with meat or vegetables poured over rice or noodles to water through hole 4132 with branch and be communicated with, divide the two ends up and down in the hole 431 of gravying with meat or vegetables poured over rice or noodles to be respectively equipped with first seal 41 and second seal 42, described first, second seal 41,42 is the not imperial seal of iron.Described filling mouth 48 is connected on the fixed head 411, irritating mouth 48 is connected by quadruplet socket cap hexagon socket head cap screw with fixed head 411, fixed head 411 is provided with fixed head through hole 4111, fixed head through hole 4111 is communicated with irritates mouth 48 and groove 4133 formation silica gel raw material runner paths, be provided with between described filling mouth 48 and the fixed head through hole 4111 and irritate mouth seal 49, described lower end of going up heating plate 416 is provided with mold 536.

The present invention utilizes under the pressure effect of irritating mouth 48 and nozzle 632 present cylinders and fits tightly, and raw material can not leak glue from here when penetrating.Irritate mouth 48 and be connected by quadruplet socket cap hexagon socket head cap screw, filling mouth seal 49 with fixed head 411, raw material arrives fixed heads 411 from irritating mouth 48 through irritating mouth seal 49.Fixed head 411 and last coldplate 412 amount to 36 screws by the socket cap hexagon socket head cap screw and are connected and become one, the depth of parallelism that requires fixed head 411 and last coldplate 412 two boards is at 0.02mm, guarantee that this precision will pass through modifier treatment to material, corase grind, correct grinding, on accurate CNC, utilize fly cutter at finish-milling, guarantee the depth of parallelism of two boards, and then the platform of two zero levels detects the depth of parallelism, when lock two boards connecting screw, to utilize torque spanner to lock, and want the diagonal angle to lock, can not once lock and to lock several times, whether the platform detection depth of parallelism that will arrive two zero levels after having locked is qualified, then at fit on thermal insulation board 413 and last heating plate 416.

The planar central position has the silica gel raw material runner that the semicircle trench diameter is 8mm on last coldplate 412, and long is 320mm, and vertical four diameters to lower plane that herein evenly distributed are 3 discharging opening.Watering through hole 4132 places and four branches at four branches of last coldplate 412 gravys with meat or vegetables poured over rice or noodles and 43 is connected by four socket cap hexagon socket head cap screws, divide 43 the top and following seal 41,42 that Teflon all is housed of gravying with meat or vegetables poured over rice or noodles, divide 43 following and the mould of gravying with meat or vegetables poured over rice or noodles to be connected, Teflon seal 41,42 seals runner in case leak-stopping glue about relying on; On last coldplate 412 length 600mm directions, six cool cycles water flow passage have been opened in addition, guarantee to irritate mouth 48, fixed head 411 like this, go up coldplate 412, divide 43 coolings of gravying with meat or vegetables poured over rice or noodles, and thermocouple and discharge switch be housed, these two signals are delivered in the computer, computer detects flowing and temperature of water, has sound and light alarm as unusual computer.

Because of the silica gel raw material is heat cured,, prevent from that mold temperature from passing to come that normal mold temperature is set in about 125 ℃ so irritate mouth 48, fixed head 411, go up coldplate 412, divide to gravy with meat or vegetables poured over rice or noodles and 43 also will load onto thermal insulation board 413 after installing.Below last coldplate 412, load onto thermal insulation board 413, below the last thermal insulation board 413 on loading onto heating plate 416, dividing gravys with meat or vegetables poured over rice or noodles 43 will pass thermal insulation board 413 and last heating plate 416 and leave certain space and prevent that the heat biography from coming, and last thermal insulation board 413 is to be connected with last coldplate 412 by screw with last heating plate 416.Six electrothermal tubes and thermocouple are housed above the last heating plate 416, set and control temperature by computer.Wholely like this go up cold pouring channel die holder just design, installation, can realize its function through practical application.

Before dress is irritated mouth 48, will be to fixed head 411, go up coldplate 412, divide and gravy with meat or vegetables poured over rice or noodles 43, go up the cold pouring channel die holder that thermal insulation board 413 and last heating plate 416 install and carry out depth of parallelism inspection, if can not satisfy the depth of parallelism at 0.02mm, will arrive CNC goes up and to carry out upper and lower surface with fly cutter and put down, platform two zero levels detects the depth of parallelism then, until reaching requirement, after using one month, new engine also to repeat this step.

The whole cold pouring channel die holder of going up is connected with main frame cope match-plate pattern lower plane by socket cap hexagon socket head cap screw and spring washer, by filling mouth 48 cylindricals and cope match-plate pattern central bore location and installation.

As Fig. 9-1, shown in the 9-2, sled mechanism 5 of the present invention is by positional cylinder 59, lower bolster 518, slide 519, slide plate cylinder 53, following thermal insulation board 51, left skateboard 52 and right slide plate 530, first draw runner 526 and second draw runner 527 are formed, described lower bolster 518 connects cold pouring channel mechanism 4 by four Green's posts 534, a left side, right slide plate 52,530 are located at respectively on the slide 519, slide 519 is installed on the lower bolster 518, slide plate cylinder 53 is located at a left side respectively, right slide plate 52,530 both sides also drive a left side, right slide plate 52,530 move left and right, a left side, right slide plate 52, thermal insulation board 51 is installed down on 530, on the following thermal insulation board 51 left and right sides mould 537 is housed down respectively, two slide plate cylinders, 53 piston rods and right slide plate, first draw runner 526 and second draw runner 527 are connected, and two slide plate cylinders, 53 left and right sides flanges are fixed on down on the masterplate 518 by screw.Positional cylinder 59 is fastened on the slide 519 by screw and spring washer, the lower flange 593 of positional cylinder 59 is equipped with positional cylinder near piece 513, positional cylinder is provided with near piece 513 and navigates to proximity switch 512, be provided with the location in the lower end that navigates to proximity switch 512 and fall back on proximity switch 58, the positional cylinder axle core 592 of described positional cylinder 59 is provided with positional cylinder and closely connects sensor block 591.Described both sides, back at lower bolster 518 are respectively equipped with a slide plate left side and stop proximity switch 547, a slide plate left side proximity switch 545, the slide plate right side stop proximity switch 523 and slide plate right side proximity switch 525 at a slow speed at a slow speed, described left skateboard 52, the lower end be provided with slide block and connect piece 546 in the vicinity, the lower end of right slide plate 530 is provided with the slide block right side and closely connects piece 524.A described left side, right slide plate 52,530 lower end is respectively equipped with ejecting mechanism 2, it is in the matched moulds zone that a slide plate is arranged during operate as normal, another is in the outside, promptly outside be to eject on the position, after goods cure time in the matched moulds zone arrives, die sinking, move back the location, shifting formwork moves on to the mould of another side in the matched moulds zone, repeat above step, just can accomplish to produce continuously automatically, some mould does not need to eject, and can select to use or do not use ejection system in computer, can set in computer yet and use monolateral ejecting, promptly can set separately and be to use a left side to eject or the right side ejects, it is fixed to come according to concrete mould and the condition of production.

Sled mechanism of the present invention is made up of left and right slide plate 52,530 and slide 519 and first draw runner 526, second draw runner 527 and screw part, slide 519 is fixed on the lower bolster 518, and left and right slide plate 52,530, first draw runner 526, second draw runner 527 and screw part are joined together to form whole following left and right skateboard component that can move left and right.Wherein all pass through nitrogen treatment except that screw, other parts, the one, improve case hardness, the 2nd, prevent surface oxidisation.

It is piston rod, slide plate cylinder Connection Block 533, outer-hexagonal nut and the spring washer that utilizes two side slide plate cylinders 53 that left and right slide plate 52,530 moves on slide 519, socket cap hexagon socket head cap screw and spring washer are connected with right slide plate 530 with first draw runner 527; The piston rod of slide plate cylinder 53 drives slide plate move left and right in the horizontal direction.

As shown in figure 10, positional cylinder 59 of the present invention is by positional cylinder cylinder body 594, positional cylinder piston rod 5931, positional cylinder lower flange 593, positional cylinder upper flange 597, positional cylinder Connection Block 598, location key seat 599, positional cylinder closely connects sensor block 591 and forms, the two ends up and down of described positional cylinder cylinder body 594 are equipped with positional cylinder upper flange 597 and positional cylinder lower flange 593 respectively, at positional cylinder upper flange 597, lower flange 593 is respectively equipped with the 5th O type circle 5922 and the 6th O type circle 5932 with the junction of positional cylinder cylinder body 594, on positional cylinder, lower flange 597,593 are provided with first anti-dust seal 5919 successively with the contact position of positional cylinder piston rod 5931, the 8th U-shaped circle 5926, second anti-dust seal 5933, the 9th U-shaped circle 5925, on positional cylinder piston rod 5931 pistons, be respectively equipped with the 7th O type circle 5923 and the tenth U-shaped circle 5924, on slide 519, have slide hole 5191 and be used to pass positional cylinder 59, the top of positional cylinder piston rod 5931 is connected with alignment pin 5910 by screw, on the upper flange of positional cylinder 59, be added with positional cylinder Connection Block 598, positional cylinder Connection Block 598 upper ends connect location key seat 599, the upper end of location key seat 599 penetrates slide hole 5191, location key seat 599 is fastened on the slide 519 by screw and spring washer with the both sides of positional cylinder Connection Block 598, at the upper end in slide hole 5191 left skateboard 52, have right slide hole 5301 on the right slide plate 530, this is a step-like structure in right slide hole 5301, described left skateboard 52, be provided with slide plate alignment pin guide pin bushing 5913 in the right slide hole 5301, this slide plate alignment pin guide pin bushing 5913 is fastened on left skateboard 52 by screw and spring washer, in the step-like right slide hole 5301, on slide plate alignment pin guide pin bushing 5913, be provided with location pin cap 5914, location pin cap 5914 is fastened on the slide plate alignment pin guide pin bushing 5913 by screw, connects positional cylinder in the lower end of positional cylinder piston rod 5931 by screw and spring washer and closely connects sensor block 591.

The course of work of shifting formwork of the present invention and location: under the control of computer, the computer output signal allows slide plate cylinder 53 work, to move right as slide plate, the 53 left side oil-feeds of slide plate cylinder, slide plate cylinder 53 piston rods drive slide plate and move from left to right, when running into the slide plate right side at a slow speed during proximity switch 525, slow down and continue to move to right at computer control lower skateboard cylinder 53, when running into the slide plate right side and stop proximity switch 523, computer detects this signal relief slide plate cylinder 53 to be stopped, and slide plate stops to move.At this moment the computer output signal allows positional cylinder 59 start working, positional cylinder piston rod 5931 begins to rise, alignment pin 5910 is inserted into 5913 li of the slide plate alignment pin guide pin bushings of left skateboard 52, it between them very little gap, alignment pin 5910 and slide plate alignment pin guide pin bushing 5913 are to adopt the 65Mn material and through modified and nitrogen treatment good hardness and anti-wear performance arranged, when closely connecing sensor block 591, positional cylinder under the drive of positional cylinder piston rod 5931, moves up, run into when navigating to proximity switch 512, computer is received this signal, allow positional cylinder quit work, finish location work.

As shown in figure 11, slide plate cylinder 53 of the present invention is made up of slide plate cylinder cylinder body 5303, slide plate cylinder forward flange 5305, slide plate cylinder rear flange 5340, slide plate cylinder piston 5302 and slide plate cylinder axle core 5304, slide plate cylinder Connection Block 5306, every machine has two slide plate cylinders, the rod that described slide plate cylinder forward flange 5305 is located at slide plate cylinder cylinder body 5303 is distolateral, slide plate cylinder rear flange 5340 is located at the opposite side of slide plate cylinder cylinder body 5303, and they are by being threaded.One end of slide plate cylinder axle core 5304 connects slide plate cylinder piston 5302, endoporus contact position with slide plate cylinder piston 5302 on this slide plate cylinder axle core 5304 is provided with two the 8th O type circles 5318, and with screw 5322 lock slide cylinder pistons 5302, slide plate cylinder axle core 5304 other ends are provided with the slide plate cylinder Connection Block 5306 that is connected and fixed by nut and spring washer, on slide plate cylinder Connection Block 5306 by screw and the fastening slide plate cylinder of spring washer Connection Block 5306, be provided with second wear ring 5317 and 5,316 two on the 11 U-shaped circle is distributed in second wear ring, 5317 both sides at the cylindrical of slide plate cylinder piston 5302, contact position at slide plate cylinder rear flange 5340 and slide plate cylinder cylinder body 5303 is provided with the tenth O type circle 5321, slide plate cylinder axle core 5304 is provided with the 4th wear ring 5314 successively with the contact position of slide plate cylinder forward flange 5305, the 12 U-shaped circle 5313, the 3rd wear ring 5312 and the 5th dust ring 5311, be provided with the 11 O type circle 5315 between slide plate cylinder forward flange 5305 and the slide plate cylinder cylinder body 5303, slide plate cylinder 53 is fastened on the lower bolster 518 by screw and packing ring.

As Figure 12-1,12-2 and shown in Figure 13, ejecting mechanism 2 of the present invention is separately positioned on the lower end of left and right slide plate 52,530, and this ejecting mechanism 2 is made up of standard oil cylinder 213, liftout tank pull bar 23 and liftout tank push rod 24, liftout tank top board 26, liftout tank adpting flange 27, liftout tank oil cylinder fixed head 28.One end of described liftout tank pull bar 23 is fastened on the slide 519, the other end connects liftout tank oil cylinder fixed head 28, be provided with on the liftout tank pull bar 23 along on the liftout tank pull bar 23, the liftout tank top board 26 of lower slider, liftout tank top board 26 slipper on liftout tank pull bar 23 is equipped with copper and adds graphite oil-free and set off, one end of liftout tank push rod 24 is fastened on the liftout tank top board 26, the other end passes a lower bolster 518 and a left side, right slide plate 52, eject in 530, the axle core of standard oil cylinder 213 is fastened on the liftout tank top board 26 by liftout tank adpting flange 27, and a side of described liftout tank oil cylinder fixed head 28 is provided with and closely connects fixed head 218 under the liftout tank.Proximity switch is housed on it is used for detecting knock-pin and whether does not fall back on the position not, proximity switch plate 219 is housed on lower bolster 518 is used to detect liftout tank and ejects and whether put in place.

Ejecting mechanism of the present invention is under the control of computer, after the slide plate shifting formwork puts in place, slide plate and dress mould part thereon in the workspace begin the location, computer detect the location put in place after, computer is promptly exported and is ejected signal to slide plate and die side at nonclient area, begin to eject action, the liftout tank piston drives liftout tank top board 26 to begin rising and drives mould to rise, when liftout tank top board 26 rises to proximity switch on the proximity switch plate 219, the proximity switch output signal is delivered in the computer, computer detects the back output signal and stops to eject action, and liftout tank stops at this position, and operating personnel can conveniently take out goods.By the time after automatic die sinking puts in place behind the product molding in the mould in the matched moulds zone, the location moves back, eject and move back after computer detects above signal, computer output shift mode signal, mould in work matched moulds scope shifts out, mould at nonclient area moves into the matched moulds working region, and whole action circulates according to this.

Liftout tank push rod 24 every limits have five, ten one all the other four at centers of meter, both sides are evenly distributed on diameter on 188 the center of circle, it is fixed that mould is specifically looked concrete with several push rods 24 in every limit, peace installation and dismantling push rod 24 is very convenient, as long as before the dress mould, it is worn from above, lock screw down below and get final product.

As shown in figure 14, template assembly 8 of the present invention is by cope match-plate pattern 825, lower bolster 518, under adjust pad 81, mould cylinder cylinder body 819, bottom plate 85, mould cylinder piston 820, mould cylinder flange 83, mould cylinder position chi Connection Block 815, mould cylinder position chi fixed head 813, Green's post 829 is formed, the upper end Connection Block cylinder component 602 of described cope match-plate pattern 825, Green's post 829, Green's post big nut 82, Green's post 829 lower ends connect bottom plate 85 by Green's post big nut 82, lower bolster 518 is connected between cope match-plate pattern 825 and the bottom plate 85, Green's post 829 passes lower bolster through hole 836, the second no oil that copper adds graphite is housed in via hole sets off 821.Be provided with 81, four thickness requirements of following adjustment pad in the junction of Green's post 829 up and down supporting plates 85 the same.Upper surface one side of bottom plate 85 is provided with by the fixing mould cylinder position chi fixed head 813 of screw, and mould cylinder cylinder body 819 is provided with mould cylinder position chi Connection Block 815 with a side of mould cylinder position chi fixed head 813.In lower bolster through hole 836, be provided with the 3rd dust ring 822 and the second no oily lining 821.Mould cylinder cylinder body 819 is connected on the lower bolster 518 by screw and spring shim, side at mould cylinder cylinder body 819 is provided with oil return pipe 833, be provided with hydraulic part prefill valve 832 between oil return pipe 833 and the mould cylinder cylinder body 819, prefill valve 832 is fastened on the mould cylinder cylinder body 819 by screw and spring washer, on mould cylinder cylinder body 819, be provided with the fuel tap oil connection 831 of unloading, be provided with mould cylinder piston 820 in the mould cylinder cylinder body 819, the lower end of mould cylinder piston 820 is fastened on the bottom plate 85 by screw and spring washer, the lower end of mould cylinder cylinder body 819 is provided with mould cylinder flange 83, mould cylinder piston 820 is active in mould cylinder cylinder body 819 and the mould cylinder flange 83, step 8201 diameters are arranged greater than piston diameter in the upper end of mould cylinder piston 820, when mould cylinder piston 820 is moved downward to mould cylinder flange 83 when matched moulds, this step 8201 is against and prevents on the mould cylinder flange 83 that mould cylinder piston 820 from deviating from mould cylinder cylinder body 819, and described mould cylinder flange 83 is provided with the 4th dust ring 810 with mould cylinder piston 820 contact positions, the 5th U-shaped circle 84 and bumper ring 86.The lower end of described cope match-plate pattern 825 connects cold pouring channel mechanism 4, and sled mechanism 5 is housed on the lower bolster 518.In cope match-plate pattern 825 lower ends and 829 on Green's post adjustment pad 24 is housed, is used to finely tune the depth of parallelism and uses.

Be to guarantee the depth of parallelism in the matched moulds zone, at first require cope match-plate pattern 835, lower bolster 518 will guarantee that the depth of parallelism is at 0.02mm man-hour adding.Four Green's posts 534 require to add on CNC will guarantee isometric man-hour.To on grinding machine, grind contour after four adjustment pads 824 machine together, to on grinding machine, grind contour after four upward adjustment pad 8251 workers finish together, after this part assembling is finished, at first lock four Green's post big nuts 82 below the bottom plate 85, lock four Green's post big nuts 82 on the cope match-plate pattern 825 then, check the depth of parallelism in the matched moulds zone on the last plane on planes and lower bolster 518 below the cope match-plate pattern 825 with the amesdial of digital display then, the matched moulds scope is 500X600mm, in this zone, look for 12 points, last plane with lower bolster 518 is a benchmark, check and perform record successively, analyze the parallelism error situation according to record data, specifically in these group data, find intermediate point, judge then repair four go up adjust pads 8251 concrete which, adjust the thickness of pad 8251 according to this, at this moment pull down this circlip for shaft 8252, unclamp four Green's post big nuts on the cope match-plate pattern 825, in a little distance of slinging gently with crane gear, unload this and adjust pad, it might be two, taking surface grinding machine will go up and adjust pad 8251 thickness and be ground to and require size, be reinstalled then, check once more by above-mentioned steps, till meeting the demands.In the matched moulds zone, place a lead at last, size is that length is 500X400X100mm, the lead placement location is carried out record, whether machine starts matched moulds and starts high pressure and pressed ten minutes, take out platform that this lead is put into two zero levels then and detect the depth of parallelism of this lead on thickness direction and meet the demands.If can not meet the demands, find error position and data, repeat above step again according to these data and adjust the board depth of parallelism, till meeting the demands.

As shown in figure 15, quick cylinder 13 is housed between lower bolster 518 and bottom plate 85, every machine has two quick cylinders 13, described quick cylinder 13 is by quick cylinder cylinder body 912, cylinder axle core 94 and cylinder piston 916 compositions fast fast, described quick cylinder piston 916 is located in the quick cylinder cylinder body 912 and is connected upper end nut 918 lockings of quick cylinder axle core 94, quick cylinder piston 916 is provided with first wear ring 915 and 914 two on the 6th U-shaped circle is symmetrical in 915 placements of first wear ring, one end of described quick cylinder axle core 94 connects quick cylinder piston 916, the other end passes bottom plate 85 and is fixed on below the bottom plate 85 by hold-down nut 92, and described quick cylinder axle core 94 is provided with 913 two on the 9th O type circle with the junction of cylinder piston 916 fast.The two ends of described quick cylinder cylinder body 912 are respectively equipped with quick cylinder bonnet 919, quick cylinder flange 910, described quick cylinder flange 910 is provided with the 7th U-shaped circle 99, dust ring 920, bumper ring 911 with the contact position of quick cylinder axle core 94, cylinder bonnet 919 is provided with 917 two on the 4th O type circle with the junction of quick cylinder cylinder body 912 fast, and cylinder bonnet 919 is fastened on the lower bolster 518 fast.

The present invention adopts pneumatic guide's vacuum solenoid of Japanese SMC and two pneumatic elements of digital display pressure vacuum gauge and vavuum pump to realize the function that mould vacuumizes.It is also different to vacuumize the position that particular location opens according to the difference of mould, but all is to do to touch on the tool last, and order ground is with the extraction of the air in the mould, produces bubble in order to avoid cause on goods can't to discharge because of air, causes waste.

Of the present inventionly vacuumize concrete workflow and program composition is: then at board matched moulds high pressure, pneumatic guide's vacuum solenoid and digital display pressure vacuum gauge and vavuum pump are started working under computer control, mould is vacuumized, the digital display vacuum meter will be set a vacuum value earlier, when arriving inferior setting value, output signal was in computer when the digital display vacuum meter detected the vacuum of this setting, the computer output signal stops to vacuumize, at this moment just begin to penetrate action, the silica gel raw material is injected in the mold cavity by runner.Also stipulated certain pumpdown time in the computer program simultaneously, if when this stipulated time can not reach the vacuum value of setting, computer is with regard to the output alarm signal sound and light alarm, prompting has vacuumized problem, might occur have problem or vacuum runner that mould vacuum runner opens here problem is arranged, according to concrete mould situation, maintenance can be fixed a breakdown.

The matched moulds of the complete set of equipments of of the present invention pair of component liquid-state silicon gel ejection formation partly adopts four post three-plate type structures, main clamping pressure oil cylinder adopts the ram cylinder dosing to press prefill valve control, moment can add a large amount of hydraulic oil, the minimizing matched moulds opens the high pressure time, and both matched moulds is short to the high pressure time, enhance productivity, adopt independent relief valve moment to lay down high pressure during the die sinking pressure release, open prefill valve then and make oil moment flow out die sinking fast under cylinder drives fast.And reduce the influence of main mould cylinder to the depth of parallelism, the big mould of matched moulds scope is stressed evenly, and the matched moulds scope guarantees stressed even in four posts and be in centrosymmetric position.

Two of switch mould dependence are installed in the monosymmetric quick cylinder of main clamping pressure oil cylinder and finish, the cylinder cylinder body is fixed on the lower bolster fast, cylinder piston rod is fixed on the bottom plate fast, pass through the hard chrome plating polishing to reduce resistance at quick inner surface of cylinder block fast for guaranteeing that quick cylinder moves, guarantee that shifting formwork is quick.Here lower bolster is fixed, and cope match-plate pattern, lower bolster, piston move, and advantage is to adjust the die sinking height according to mold height, does not need each die sinking to open total travel, saves time and raises the efficiency.Wherein three plates are that cope match-plate pattern, lower bolster, bottom plate all adopt spheroidal graphite cast-iron and guarantee can not to be out of shape through Ageing Treatment, because so advantages such as the distortion of the excellent properties of spheroidal graphite cast-iron is little, resistance to compression select for use this material to use as template here, can conveniently make the structure of moulding complexity in addition with forging type, reduce processing charges, be easy to produce in batches.

Main clamping pressure oil cylinder adopts ram cylinder, make that technology is simple, reducing manufacturing procedure and cost while, also can to accomplish to make hermetically-sealed construction simple and reliable, maintenance is convenient, and be the structure that adopts the motionless piston of cylinder body moving on the design, can make machine matched moulds regional extent big, mould, product molding are all played good effect.

Claims (10)

1. the complete set of equipments of two component liquid-state silicon gel ejection formations is characterized in that: be made up of main frame (1) and charging system (7); Main frame (1) is by template assembly (8), ejecting mechanism (6), sled mechanism (5), mold (536), following left and right sides mould (537), cold pouring channel mechanism (4), ejecting mechanism (2), be located at the electronic box (10) of the right back portion of frame (14), be located at frame (14) and go up electronic box (10), be located at the operation electronic box (9) on the frame (14), be located at the rear portion of frame (14) and the fuel tank (11) that welds together with frame (14), be located at the hole of passing lower bolster and be installed in the following navigation system (12) of slide (519), be located between lower bolster (518) and the bottom plate (85) and with the centrosymmetric quick cylinder of frame (14) (13), the working connection plate and the ejaculation oil circuit board (16) that are located at the both sides of mould cylinder cylinder body (819) are formed; The rear portion of described electronic box (10) and fuel tank (11) rear portion right flank are connected and fixed;

The cope match-plate pattern lower end of described main frame (1) is equipped with cold pouring channel mechanism (4), install mould (536) in the lower end of cold pouring channel mechanism (4), following left and right sides mould (537) is located on the left and right sides slide plate of sled mechanism (5), be arranged on the electronic box (10) and operation electronic box (9) on main frame (1) right side, described main frame (1) is to adopt vertical structure, has a mold (536) two following left and right sides mould (537) structure, be provided with sled mechanism (5) below two following left and right sides moulds (537), the left and right sides, lower end of sled mechanism (5) is equipped with ejecting mechanism (2), the push rod of ejecting mechanism (2) passes sled mechanism (5), and the goods in two following left and right sides moulds (537) are ejected.Be fixed in the cold pouring channel mechanism (4) in the upper end of mold (536), cold pouring channel mechanism (4) is fixed on below the cope match-plate pattern in the template assembly (8), the top of template assembly (8) is provided with ejecting mechanism (6), one side is provided with quantitative cylinder mechanism (72) at ejecting mechanism (6) rear portion, and quantitative cylinder mechanism (72) discharging opening in the described charging mechanism (7) connects ejecting mechanism (6).

2. the complete set of equipments of according to claim 1 pair of component liquid-state silicon gel ejection formation, it is characterized in that: described charging mechanism (7) is made up of two liquid-state silicon gel charging mechanisms (71) and quantitative cylinder mechanism (72), and the feed pipe (712) of described liquid-state silicon gel charging mechanism (71) connects the feeding mouth (7226) of quantitative cylinder mechanism (72).

3. the complete set of equipments of according to claim 2 pair of component liquid-state silicon gel ejection formation, it is characterized in that: described liquid-state silicon gel charging mechanism (71) is by dnockout frame base plate (711), feed pipe (712), binder dish (718), cylinder (7112), blast pipe (7115), dnockout pump (7120), air pressure regulator (7127), manual direction valve of lift cylinder (7128) and the electronic direction valve of dnockout pump (7129) are formed, be provided with sealed rubber pipe (719) in the outside of binder dish (718), steel band (7110) and clasp (7111), cylinder (7112) is located at the both sides of binder dish (718), the upper end of cylinder (7112) is connected on the dnockout frame square tube (7126), the lower end is fastened on the dnockout frame base plate (711), the upper end of described binder dish (718) is provided with by screw and spring washer (714) and is connected binder disk cover plate (7114) on the binder dish (718), be provided with an O type circle (7113) between binder dish (718) and the binder disk cover plate (7114), binder dish (718), the upper end of binder disk cover plate (7114) connects dnockout pump (7120), dnockout pump (7120) is provided with dnockout pump rubber cushion (715) with the junction of binder dish (718), described binder dish (718) is provided with binder dish pull bar (7116), the upper end of binder dish pull bar (7116) is connected on the dnockout frame square tube (7126), described binder dish pull bar (7116) is provided with dnockout frame fixed head (7119), the pump head lower end of described dnockout pump (7120) is fastened on the dnockout frame fixed head (7119), describedly on cylinder (7112) upper flange, be provided with dnockout frame Pressure gauge fixed head (7121), the rear portion of dnockout pump (7120) is fastened on the dnockout frame Pressure gauge fixed head (7121), be respectively equipped with air pressure regulator (7127) on the described dnockout frame Pressure gauge fixed head (7121), manual direction valve of lift cylinder (7128) and the electronic direction valve of dnockout pump (7129), described binder dish (718) is provided with blast pipe (7115), blast pipe (7115) is provided with manual ball valve (7117), the lower end of described dnockout pump (7120) is provided with feed pipe (712), and feed pipe (712) connects two pan feedings (7226) of quantitative cylinder mechanism (72) respectively.

4. the complete set of equipments of according to claim 3 pair of component liquid-state silicon gel ejection formation, it is characterized in that: described quantitative cylinder mechanism (72) is by the first quantitative cylinder cylinder body (724), the second quantitative cylinder cylinder body (7241), quantitative cylinder axle core (727), quantitative cylinder oil cylinder (728), pressure sensor (7222) and pneumatic rotary ball valve (7224) are formed, quantitatively cylinder axle core (727) is located at first respectively, the second quantitative cylinder cylinder body (724,7241) in, first, the second quantitative cylinder cylinder body (724,7241) lower end is respectively equipped with the first quantitative cylinder flange (721) and the second quantitative cylinder flange (7242), first, the second quantitative cylinder flange (721,7242) with first, the second quantitative cylinder cylinder body (724,7241) junction is provided with first O-ring seals (7218), described first, the second quantitative cylinder flange (721,7242) lower end is respectively equipped with pipe joint (7221), described pipe joint (7221) connects pressure sensor (7222) and pneumatic rotary ball valve (7224) respectively by tee pipe coupling (7223), described both sides at quantitative cylinder flange fixed head (722) are provided with quantitative cylinder pull bar (723), quantitatively cylinder pull bar (723) is provided with the quantitative cylinder top board (726) that can move up and down along quantitative cylinder pull bar (723), be provided with the first no oily lining (7212) between described quantitative cylinder top board (726) and the quantitative cylinder pull bar (723), described first, the second quantitative cylinder cylinder body (724,7241) upper end is respectively equipped with quantitative cylinder cylinder cap (725), quantitatively be provided with first dust ring (7213) between cylinder cylinder cap (725) and the quantitative cylinder axle core (727), the upper end and first of described quantitative cylinder axle core (727), be respectively equipped with the first wear-resisting band (7216) and the second wear-resisting band (7214) in the second quantitative cylinder cylinder body, quantitative cylinder piston on the described and quantitative cylinder axle core (727) is provided with the second U-shaped circle (7217) and the 3rd O shape circle (7215), the piston rod of described quantitative cylinder oil cylinder (728) is connected the center of quantitative cylinder top board (726), quantitatively cylinder oil cylinder (728) lower flange is connected on the quantitative cylinder oil cylinder fixed head (729), the upper end of described quantitative cylinder pull bar (723) is fastened on the quantitative cylinder oil cylinder fixed head (729), the lower end of described two pneumatic rotary ball valves (7224) is respectively equipped with raw material delivery outlet (7243), and described raw material delivery outlet (7243) connects ejecting mechanism (6) respectively.

5. the complete set of equipments of according to claim 4 pair of component liquid-state silicon gel ejection formation, it is characterized in that: described ejecting mechanism (6) is by barrel assemblies (6400), seat cylinder component (602), penetrate cylinder component (605), oil motor (606) and electronic ruler (603) are formed, described gun barrel (640) connects on the present cylinder component (602), seat cylinder component (602) connects penetrates cylinder component (605), electronic ruler (603) is connected in a cylinder component (602) and penetrates between the cylinder component (605), the screw rod upper end of described barrel assemblies (6400) connects penetrates cylinder component (605), oil motor (606) connects on the screw rod of barrel assemblies (6400) by connecting axle, the outside of described gun barrel (640) is provided with gun barrel cold water pipe (641), be provided with the screw rod (642) that runs through gun barrel (640) in the gun barrel (640), the upper end of described screw rod (642) connects penetrates cylinder component (605), the lower end of described gun barrel (640) is provided with the second nozzle Connection Block (637) and the first nozzle Connection Block (635) successively, the described second nozzle Connection Block (637) is provided with the 2nd O type circle (656) with the junction of gun barrel (640), the inside of the described second nozzle Connection Block (637) is provided with bellmouth (6371), the front end of bellmouth (6371) is provided with the nozzle through hole (6372) of UNICOM with it, the screw rod that is provided with its connecting screw rod (642) lower end, upper end in bellmouth (6371) is penetrated head (657), described screw rod (642) lower end and screw rod are penetrated between head (657) and are provided with check ring (655), describedly on the horizontal level of the first nozzle Connection Block (635), have a slotted hole, being provided with sealing nozzle depression bar (658) one end in the middle of the slotted hole is fixed on the first nozzle Connection Block (635) with screw, one side of sealing nozzle depression bar (658) connects nozzle cylinder (653) by cylinder axis connecting rod (654), nozzle cylinder (653) is by cylinder connecting plate (651), cylinder seat (648) is connected the outside of gun barrel cold water pipe (641), nozzle cylinder (653) is provided with gas-tpe fitting (652), be provided with closed rod (633) in the centre bore of the described first nozzle Connection Block (635), closed rod (633) is provided with the 12 O type circle (670), closed rod during operate as normal (633) withstands the discharging opening of nozzle (632), the outside of described nozzle (632) is provided with nozzle cold water jacket (630), described front end one side at gun barrel cold water pipe (641) is provided with pipe joint (639), the middle part is provided with discharge switch contacts (643) and thermocouple Connection Block (644), described upper center at gun barrel (640) is respectively equipped with two feeding mouth joints (646), described two feeding mouth joints (646) connect the raw material output (7243) of two quantitative cylinders respectively, the upper end of described gun barrel (640) is connected and fixed on the present cylinder component (602), the rear end of described screw rod (642) connects oil motor (606), oil motor (606) is connected to be penetrated on the cylinder component (605), the described cylinder component (605) of penetrating is formed by penetrating cylinder (620), the described cylinder axle core (622) of penetrating of penetrating cylinder (620) is distinguished Connection Block cylinder component (602), penetrate and penetrate that the cylinder piston is provided with the 3rd wear-resisting band (627) and first lattice enclose (628) on the cylinder axle core (622), penetrate on the cylinder in the both sides of penetrating cylinder (620), the lower end is respectively equipped with first and penetrates cylinder flange (660) and second and penetrate cylinder flange (663), described first, second penetrates cylinder flange (660,663) be respectively equipped with seal second dust ring (623) on, the 4th U-shaped circle (624), second lattice enclose (625) and seal the 3rd O type circle (626) of penetrating cylinder, the described piston of penetrating cylinder axle core (622) is active in to be penetrated in the cylinder (620), described penetrate to be provided with in the middle of the cylinder (620) penetrate cylinder power transmission shaft (618), the described cylinder power transmission shaft (618) of penetrating is gone up according to the last deep groove ball bearing (607) that down has been linked in sequence, thrust ball bearing (608) and taper roll bearing (609), described oil motor is by penetrating cylinder power transmission shaft (618) connecting screw rod (642), the upper end of the cope match-plate pattern (825) in described seat cylinder component (602) the connection mode board component (8).

6. the complete set of equipments of according to claim 5 pair of component liquid-state silicon gel ejection formation, it is characterized in that: described template assembly (8) is by cope match-plate pattern (825), lower bolster (518), mould cylinder cylinder body (819) and bottom plate (85) are formed, the upper end of described cope match-plate pattern (825) connects on the present cylinder component (602), the lower end connects bottom plate (85) by Green's post (829), described lower bolster (518) is connected between cope match-plate pattern (825) and the bottom plate (85), the two ends of described lower bolster (518) are provided with lower bolster through hole (836), Green's post (829) passes lower bolster (518) through hole, be provided with the 3rd dust ring (822) and the second no oily lining (821) in the described lower bolster through hole (836), described mould cylinder cylinder body (819) is connected below the lower bolster (518), one side of described mould cylinder cylinder body (819) is provided with oil return pipe (833), be provided with prefill valve (832) between described oil return pipe (833) and the mould cylinder cylinder body (819), on mould cylinder cylinder body (819), be provided with the fuel tap oil connection (831) of unloading, the described mould cylinder piston (820) that in mould cylinder cylinder body (819), is provided with, the lower end of mould cylinder piston (820) be connected bottom plate (85) above, the lower end of described mould cylinder cylinder body (819) is provided with mould cylinder flange (83), mould cylinder piston (820) is active in mould cylinder cylinder body (819) and the mould cylinder flange (83), described mould cylinder flange (83) is provided with the 4th dust ring (810) and the 5th U-shaped circle (84) and bumper ring (86) with mould cylinder piston (820) contact position, and the lower end of described cope match-plate pattern (825) connects cold pouring channel mechanism (4).

7. the complete set of equipments of according to claim 6 pair of component liquid-state silicon gel ejection formation, it is characterized in that: described cold pouring channel mechanism (4) is by fixed head (411), last coldplate (412), last thermal insulation board (413), last heating plate (416), irritate mouth (48) and divide gravy with meat or vegetables poured over rice or noodles (43) to form, described upward heating plate (416) passes thermal insulation board (413) by screw and spring washer and is fastened on the coldplate (412), the described upper surface of going up coldplate (412) is provided with groove (4133), be evenly distributed with four branches on the groove (4133) and water through hole (4132), have with branch on described upward thermal insulation board (413) and the last heating plate (416) and water through hole (4132) the corresponding heating plate hole in position (4161), described branch gravy with meat or vegetables poured over rice or noodles (43) pass heat insulation plate hole (4131) and go up in the heating plate hole (4161), divide branch in gravy with meat or vegetables poured over rice or noodles (43) hole (431) of gravying with meat or vegetables poured over rice or noodles to water through hole (4132) with branch and be communicated with, the gravy with meat or vegetables poured over rice or noodles two ends up and down in hole (431) of the branch that described branch is gravied with meat or vegetables poured over rice or noodles are respectively equipped with first seal (41) and second seal (42), described filling mouth (48) is connected on the fixed head (411), described fixed head (411) is provided with fixed head through hole (4111), fixed head through hole (4111) is communicated with filling mouth (48) and pours path with groove (4133) formation raw material, be provided with between described filling mouth (48) and the fixed head through hole (4111) and irritate mouth seal (49), described lower end of going up heating plate (416) is provided with mold (536).

8. the complete set of equipments of according to claim 7 pair of component liquid-state silicon gel ejection formation, it is characterized in that: described sled mechanism (5) is by positional cylinder (59), lower bolster (518), slide (519), two slide plate cylinders (53), following thermal insulation board (51), left skateboard (52) and right slide plate (530) are formed, a described left side, right slide plate (52,530) be located at respectively on the slide (519), slide (519) is located on the lower bolster (518), slide plate cylinder (53) is located at a left side respectively, right slide plate (52,530) rear and front end also drives a left side, right slide plate (52,530) move left and right, slide plate cylinder (53) is fixed on lower bolster (518), a described left side, right slide plate (52,530) be respectively equipped with down thermal insulation board (51) on, the left and right sides, lower-left mould (537) is housed respectively on the following thermal insulation board (51), a described left side, be provided with between the right slide plate first draw runner (526) and second draw runner (527) and with a left side, right slide plate (52,530) be connected, described positional cylinder (59) is located under the slide (519), one side of the lower flange (593) of described positional cylinder (59) is provided with positional cylinder near piece (513), positional cylinder is provided with near piece (513) and navigates to proximity switch (512), be provided with the location in the lower end that navigates to proximity switch (512) and fall back on proximity switch (58), the positional cylinder axle core (592) of described positional cylinder (59) is provided with positional cylinder and closely connects sensor block (591), described both sides at lower bolster (518) are respectively equipped with a slide plate left side and stop proximity switch (547), a slide plate left side is proximity switch (545) at a slow speed, the slide plate right side stops proximity switch (523) and slide plate right side proximity switch (525) at a slow speed, the lower end of described left skateboard (52) is provided with slide block and connects piece (546) in the vicinity, the lower end of right slide plate (530) is provided with the slide block right side and closely connects piece (524), a described left side, right slide block (52,530) lower end is respectively equipped with ejecting mechanism (2).

9. the complete set of equipments of according to claim 8 pair of component liquid-state silicon gel ejection formation, it is characterized in that: described ejecting mechanism (2) is by standard oil cylinder (213), liftout tank pull bar (23) and liftout tank push rod (24) are formed, one end of described liftout tank pull bar (23) is fastened on the slide (519), the other end connects on the liftout tank oil cylinder fixed head (28), described liftout tank pull bar (23) is provided with the liftout tank top board (26) that slides up and down along liftout tank pull bar (23), one end of described liftout tank push rod (24) is fastened on the liftout tank top board (26), the other end is active in lower bolster (518), a slide (519) and a left side, right slide plate (52,530) in, the axle core of described standard oil cylinder (213) is fastened on the liftout tank top board (26) by liftout tank adpting flange (27), and a side of described liftout tank oil cylinder fixed head (28) is provided with and closely connects fixed head (218) under the liftout tank.

10. the complete set of equipments of according to claim 9 pair of component liquid-state silicon gel ejection formation, it is characterized in that: be provided with (13) two both sides that are symmetrically distributed in main mould cylinder with the center of quick cylinder between described lower bolster (518) and the bottom plate (85), described quick cylinder (13) is by quick cylinder cylinder body (912), cylinder axle core (94) and cylinder piston (916) composition fast fast, described quick cylinder piston (916) is located in the quick cylinder cylinder body (912) and is connected upper end nut (918) locking of quick cylinder axle core (94), fast cylinder piston (916) is provided with (914) two on first wear ring (915) and the 6th U-shaped circle, one end of described quick cylinder axle core (94) connects quick cylinder piston (916), the other end passes bottom plate (85) and is fixed under the bottom plate (85) by hold-down nut (92), described quick cylinder axle core (94) is provided with (913) two on the 9th O type circle with the junction of quick cylinder piston (916), the two ends of described quick cylinder cylinder body (912) are respectively equipped with quick cylinder bonnet (919), quick cylinder flange (910), described quick cylinder flange (910) is provided with the 7th U-shaped circle (99) with the contact position of quick cylinder axle core (94), dust ring (920), bumper ring (911), cylinder bonnet (919) is provided with the 4th O type circle (917) with the junction of quick cylinder cylinder body (912) fast, and cylinder bonnet (919) is fastened on the lower bolster (518) fast.

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