CN203665810U

CN203665810U - Uppermolding device

Info

Publication number: CN203665810U
Application number: CN201420018829.XU
Authority: CN
Inventors: 陈增培
Original assignee: Individual
Current assignee: Individual
Priority date: 2014-01-13
Filing date: 2014-01-13
Publication date: 2014-06-25
Anticipated expiration: 2024-01-13

Abstract

The utility model relates to an uppermolding device which is high in working efficiency, simple to operate and capable of saving raw materials. The device comprises a rack, a push device, a push plate, an injection device, a stirring and mixing device, a first discharging device, a second discharging device and an electrical control system, wherein the push device is arranged on the rack; the push plate can glide leftwards and rightwards along the rack under the action of the push device; the injection device is arranged on the rack and located on a moving track of the push plate; the stirring and mixing device is arranged on the rack and communicated with theinjection device; the first discharging device and the second discharging device are communicated with the stirring and mixing device respectively; discharging pumps capable of controlling discharging amounts accurately are arranged between the first discharging device and the stirring and mixing device as well asbetween the second discharging device and the stirring and mixing device respectively; and the push device, the injection device, the stirring and mixing device, the first discharging device, the second discharging device and the discharging pumps are connected with the electrical control system respectively.

Description

A kind of instep formation device

Technical field

The utility model relates to a kind of instep formation device, relates in particular to a kind of vamp full-automatic molding device of KPU material.

Background technology

The shoes such as sport footwear all comprise vamp, sole, shoe-pad conventionally, and the main outward appearance that is shoes due to vamp embodies, so in order to make the moulding of shoes more attractive in appearance, more meet consumer demand, often utilize the combination of materials of multilayer, many moulding and moulding vamp.Existing a kind of colloid vamp, it comprises bottom screen cloth, upper strata colloidal materials, this colloidal materials is to utilize two kinds of glue of the first glue and the second glue to mix, after chemical reaction after coagulation forms.Due to pliability, degree of drawing, the antitorque curvature difference of required this colloidal materials, so the proportioning of this glue is also just different, need to modulate according to actual demand.Existing way is to utilize manually two kinds of glue to be put into a container internal modulation stirring, then promptly be applied on mould, because the setting rate of this glue having mixed is very fast, as the setting time of KPU material was generally about 30 seconds, and in this time, need to modulate, stirred, vacuumize, smear, scrape equality operation, so this step needs very skilled personnel to operate, otherwise easily just rapid cooled and solidified in container of glue, thereby cause unavailable.And after being applied on mould, promptly mould is struck off, make mixed glue fill full whole mould, then unnecessary glue is wiped off.The process of this artificial modulation, making is difficult to accurately the proportioning of the first glue and the second glue is accurately controlled, and the consumption of glue in container modulation is often for filling several times of mould amount, the glue blowing off after mold filling cannot reuse, cause great waste, and this action need very personnel of specialty carries out, and need several individuals to share out the work and help one another and carry out, greatly improved cost of labor.

Utility model content

Therefore, for above-mentioned problem, the utility model proposes a kind of operating efficiency high, can full-automatic vacuum-pumping, automatically stir injecting glue, material feeding accurate, simple to operate, economize in raw materials, instep formation device that automaticity is high.

For achieving the above object, the utility model has adopted following technical scheme: a kind of instep formation device, comprise frame, be located at the pusher in frame, can be along the push pedal of frame left and right slippage under pusher effect, be located at and in frame, be positioned at the injection device on push pedal motion track, be located at the mixing stirring device that is communicated with injection device in frame, be communicated with respectively the first drawing mechanism and second drawing mechanism of mixing stirring device, electric control system, described first, between the second drawing mechanism and mixing stirring device, be respectively equipped with the discharging pump that can accurately control load, described pusher, injection device, mixing stirring device, the first drawing mechanism, the second drawing mechanism, discharging pump is connected with electric control system respectively.

Further, also comprise the cleaning device for cleaning the residual mixed material of mixing stirring device and injection device, described cleaning device is communicated with mixing stirring device, and described cleaning device is connected with electric control system.

Further, be also provided with micro-cylinder so that the cleaning fluid of cleaning device output is carried out to pressurized delivered between described cleaning device and mixing stirring device, described micro-cylinder is connected with electric control system.

Further, be also provided with the overflow valve refluxing for raw material between described discharging pump and mixing stirring device, described overflow valve is connected with electric control system.

Further, described injection device comprises former and later two cylinders or the oil cylinder be located in frame, be located at injection support on cylinder or cylinder piston rod, be located at injection support cross tube rotationally, be located at end before and after cross bar for the handwheel of rotating horizontal pole, be located at the injection block of cross bar bottom, in described injection block, be provided with a runner, described runner is communicated with mixing stirring device, the bottom of described injection block offers the injection port of a plurality of connection runners, and described cylinder or oil cylinder are connected with electric control system.

Further, described mixing stirring device comprises the cylindrical shell be located in frame, be located at turning cylinder in cylindrical shell, a plurality of motor of being located at blade on turning cylinder, being located at frame upper driving connection of rotating axle, the top of described cylindrical shell is provided with the first charging aperture, the second charging aperture, cleans material mouthful, the bottom of described cylindrical shell is provided with the mixing discharging opening that is communicated with injection device, and described motor is connected with electric control system.

Further, described the first drawing mechanism and the second drawing mechanism comprise respectively charging basket, on described charging basket, can cover or open and be provided with bung, described charging basket bottom is provided with discharging opening, described bung is provided with the air inlet for the pressurization of ventilating, on described charging basket outer wall, be enclosed with the heating plate that can be used for heating the inner raw material of charging basket, described heating plate is connected with electric control system.

Further, described charging basket is provided with the bleeding point that charging basket inside can be vacuumized, and described bung is provided with the vacuum meter for reading charging basket internal vacuum pressure.

By adopting aforementioned techniques scheme, the beneficial effects of the utility model are: compared with existing manual operation, this instep formation device, the first raw material that can realize arbitrary proportioning and the second raw material automatic mixes, stirring, and can realize the function to mold injects automatically, and operating efficiency is higher, operate simpler, and the height of injection device is arranged to the height of mould, can directly mixed feed injection be entered in die cavity and not overflow, can greatly economize in raw materials; Further, be also provided with cleaning device, can clean mixing stirring device, injection device after injection, prevent the raw material blocking channel solidifying; Further, described the first drawing mechanism and the second drawing mechanism comprise respectively charging basket, charging basket is provided with the bleeding point that charging basket inside can be vacuumized, described bung is provided with the vacuum meter for reading charging basket internal vacuum pressure, can vacuumize charging basket, air in glue is reduced, reduce the bubble while mixing, make injection effect better.

Accompanying drawing explanation

Fig. 1 is structural representation of the present utility model.

Fig. 2 is the structural representation of injection device.

Fig. 3 is the structural representation of mixing stirring device.

The specific embodiment

Now with the specific embodiment, the utility model is further illustrated by reference to the accompanying drawings.

With reference to figure 1, Fig. 2, Fig. 3, the present embodiment provides a kind of instep formation device, this kind of instep formation device is mainly applicable to KPU, the injecting glue moulding of the materials such as CPU, comprise frame 1, be located at the pusher 2 in frame 1, can be along the push pedal 3 of frame 1 left and right slippage under pusher 2 effects, be located at and in frame 1, be positioned at the injection device 4 on push pedal 3 motion tracks, be located at the mixing stirring device 5 that is communicated with injection device 4 in frame 1, be communicated with respectively the first drawing mechanism 6 and second drawing mechanism 7 of mixing stirring device 5, electric control system, described the first drawing mechanism 6, between the second drawing mechanism 7 and mixing stirring device 5, be respectively equipped with the discharging pump 8 that can accurately control load.Described frame 1 is provided with a working face 11, and push pedal 3 can be along these working face 11 left and right slippages, and described pusher 2 is oil cylinder.

Also comprise the cleaning device 9 for cleaning the residual mixed material of mixing stirring device 5 and injection device 4, described cleaning device 9 is communicated with mixing stirring device 5.

Between described cleaning device 9 and mixing stirring device 5, be also provided with micro-cylinder 91 and carry out pressurized delivered with the cleaning fluid that cleaning device 9 is exported.Above-mentioned cleaning device 9 is a tank body, and its cleaning fluid is Tianna solution, and micro-cylinder can carry the pump of liquid to replace with other.Described cleaning fluid also can be replaced with other materials, as DMF.

Between described discharging pump 8 and mixing stirring device 5, be also provided with the overflow valve 81 refluxing for raw material, described overflow valve is connected with electric control system.

Described injection device 4 comprises former and later two cylinders 41 of being located in frame 1, be located at injection support 42 on cylinder 41 piston rods, be located at injection support 42 cross tubes 43 rotationally, be located at cross bar 43 ends, front and back for the handwheel 44 of rotating horizontal pole 43, be located at the injection block 45 of cross bar 43 bottoms, in described injection block 45, be provided with a runner 451, described runner 451 is communicated with mixing stirring device 5, and the bottom of described injection block 45 offers the injection port 452 of a plurality of connection runners 451.The top of described injection block 45 offers the injection charging aperture 453 that is communicated with mixing stirring device 5 and runner 451.Injection block is arranged on turnover cross bar, for the ease of cleaning and maintenance, and in the bottom of injection block, be positioned on the position of each injection port 452 and be inwardly provided with a groove 454, can make the better effects if of injection, make the more complete of mold filling, can make raw material be unlikely to overflow the lower surface in injection block.

Described mixing stirring device 5 comprises the cylindrical shell 51 be located in frame 1, be located at turning cylinder 52 in cylindrical shell 51, a plurality of motor 54 of being located at blade 53 on turning cylinder 52, being located at frame 1 upper driving connection of rotating axle 52, the top of described cylindrical shell 51 is provided with the first charging aperture 55, the second charging aperture 56, cleans material mouth 57, and the bottom of described cylindrical shell 51 is provided with the mixing discharging opening 58 that is communicated with injection device.Described blade and turning cylinder can be one-body molded.

Described the first drawing mechanism 6 and the second drawing mechanism 7 comprise respectively charging basket 61, on described charging basket 61, can cover or open and be provided with bung 62, described charging basket 61 bottoms are provided with discharging opening 63, described bung 61 is provided with the air inlet 64 for the pressurization of ventilating, and on described charging basket 61 outer walls, is enclosed with the heating plate 65 that can be used for heating charging basket 61 inner raw materials.Described air inlet is communicated with external pressurized equipment to pressurize, and described heating plate is electric boiling plate, can directly connect power supply with heating.Described charging basket 61 is provided with the bleeding point 66 that charging basket 61 inside can be vacuumized, and described bung 62 is provided with the vacuum meter 67 for reading charging basket 61 internal vacuum pressure.On described bung 62, be also provided with one and the raw material in charging basket can be stirred to prevent the agitating device 68 solidifying, described agitating device 68 comprises the servomotor of being located on bung, the shaft being connected with servo motor transmission, described shaft stretches into charging basket inside, is also provided with a Pressure gauge 69 that can read charging basket 61 internal pressures on described bung 62.

The motor of above-mentioned pusher, the cylinder of injection device, mixing stirring device, micro-cylinder, discharging pump, overflow valve, heating plate are all connected with electric control system, control thereby realize automatically, and in frame, be provided with multiple induction installations, to respond to the action of each device, be easier to realize thereby make automatically to control.

The instep formation technique of utilizing above-mentioned instep formation device, comprises the following steps:

The first step, is positioned over the first raw material and the second raw material respectively in the charging basket of the first drawing mechanism and the second drawing mechanism, and charging basket is carried out to heating and thermal insulation, prevents that the first raw material and the second raw material from solidifying.The holding temperature at this place is preferably 60 °, and it can be also the arbitrary temperature in 50 ° to 70 °.

Second step, vacuumizes respectively the charging basket of the first drawing mechanism and the second drawing mechanism;

The 3rd step, pressurizes respectively to the charging basket of the first drawing mechanism and the second drawing mechanism.The pressure at this place is preferably 0.3MPa, and it can be also the arbitrary numerical value between 0.2～0.5MPa;

The 4th step, is placed in mould before push pedal, and pusher starts, mould is pushed away toward injection device, reach before injection device, pushing speed declines, push to slowly under the injection block of injection device, and injection block is arrived identical with the height of mould apart from the height adjustment of frame;

The 5th step, the discharging pump of the first drawing mechanism and the second drawing mechanism starts respectively,, respectively by different rotation speed operation the first raw material and the second raw material is carried in the cylindrical shell of mixing stirring device according to the proportioning of two kinds of raw materials;

The 6th step, the electric motor starting of mixing stirring device, carries out mix and blend to the first raw material and the second raw material;

The 7th step, the first raw material and the second raw material that mix and blend is complete are distributed on each injection port by the uniform flow passage of injection device, are then injected in the die cavity of mould mould output, push pedal cylinder return.

The 8th step, starts micro-cylinder, will in the cylindrical shell of the cleaning fluid introducing mixed stirring device in cleaning device, clean, and cleaning fluid is discharged from injection port, prevents that the raw material solidifying from destroying mixed stirring device and injection device.

Compared with existing manual operation, this instep formation device, the first raw material that can realize arbitrary proportioning and the second raw material automatic mixes, stirring, and can realize the function to mold injects automatically, operating efficiency is higher, operates simplyr, and the height of injection device is arranged to the height of mould, can directly mixed feed injection be entered in die cavity and not overflow, can greatly economize in raw materials; Further, be also provided with cleaning device, can clean mixing stirring device, injection device after injection, prevent the raw material blocking channel solidifying; Further, described the first drawing mechanism and the second drawing mechanism comprise respectively charging basket, charging basket is provided with the bleeding point that charging basket inside can be vacuumized, described bung is provided with the vacuum meter for reading charging basket internal vacuum pressure, can vacuumize charging basket, air in glue is reduced, reduce the bubble while mixing, make injection effect better.Utilize the instep formation technique of above-mentioned instep formation device, changed original manual inaccuracy, the defects such as skilled operation degree is high, wastage of material, can be more efficiently, more accurately, easier, the moulding that realizes more frugally vamp.

Although specifically show and introduced the utility model in conjunction with preferred embodiment; but those skilled in the art should be understood that; not departing from the spirit and scope of the present utility model that appended claims limits; can make a variety of changes the utility model in the form and details, be protection domain of the present utility model.

Claims

1. an instep formation device, it is characterized in that: comprise frame, be located at the pusher in frame, can be along the push pedal of frame left and right slippage under pusher effect, be located at and in frame, be positioned at the injection device on push pedal motion track, be located at the mixing stirring device that is communicated with injection device in frame, be communicated with respectively the first drawing mechanism and second drawing mechanism of mixing stirring device, electric control system, described first, between the second drawing mechanism and mixing stirring device, be respectively equipped with the discharging pump that can accurately control load, described pusher, injection device, mixing stirring device, the first drawing mechanism, the second drawing mechanism, discharging pump is connected with electric control system respectively.

2. a kind of instep formation device according to claim 1, it is characterized in that: also comprise the cleaning device for cleaning the residual mixed material of mixing stirring device and injection device, described cleaning device is communicated with mixing stirring device, and described cleaning device is connected with electric control system.

3. a kind of instep formation device according to claim 2, it is characterized in that: between described cleaning device and mixing stirring device, be also provided with micro-cylinder so that the cleaning fluid of cleaning device output is carried out to pressurized delivered, described micro-cylinder is connected with electric control system.

4. a kind of instep formation device according to claim 1, is characterized in that: between described discharging pump and mixing stirring device, be also provided with the overflow valve refluxing for raw material, described overflow valve is connected with electric control system.

5. according to a kind of instep formation device described in the arbitrary claim of claim 1 to 4, it is characterized in that: described injection device comprises former and later two cylinders or the oil cylinder be located in frame, be located at the injection support on cylinder or cylinder piston rod, be located at rotationally injection support cross tube, be located at the handwheel of end, cross bar front and back for rotating horizontal pole, be located at the injection block of cross bar bottom, in described injection block, be provided with a runner, described runner is communicated with mixing stirring device, the bottom of described injection block offers the injection port of a plurality of connection runners, described cylinder or oil cylinder are connected with electric control system.

6. according to a kind of instep formation device described in the arbitrary claim of claim 1 to 4, it is characterized in that: described mixing stirring device comprises the cylindrical shell be located in frame, be located at turning cylinder in cylindrical shell, a plurality of motor of being located at blade on turning cylinder, being located at frame upper driving connection of rotating axle, the top of described cylindrical shell is provided with the first charging aperture, the second charging aperture, cleans material mouthful, the bottom of described cylindrical shell is provided with the mixing discharging opening that is communicated with injection device, and described motor is connected with electric control system.

7. according to a kind of instep formation device described in the arbitrary claim of claim 1 to 4, it is characterized in that: described the first drawing mechanism and the second drawing mechanism comprise respectively charging basket, on described charging basket, can cover or open and be provided with bung, described charging basket bottom is provided with discharging opening, described bung is provided with the air inlet for the pressurization of ventilating, on described charging basket outer wall, be enclosed with the heating plate that can be used for heating the inner raw material of charging basket, described heating plate is connected with electric control system.

8. a kind of instep formation device according to claim 7, is characterized in that: described charging basket is provided with the bleeding point that charging basket inside can be vacuumized, and described bung is provided with the vacuum meter for reading charging basket internal vacuum pressure.