CN205416173U - Move smooth and easy foaming forming device - Google Patents

Abstract

The utility model provides a move smooth and easy foaming forming device breaks through traditional forming die's structural form, and move to quiet mode shift when the drive effect of movable mould at drive arrangement under and when realizing the compound die, the fourth interface can mate the butt joint with the third interface, makes movable mould air chamber and the 2nd cooling water supply device feed through, operate corresponding switch after, a cooling water supply device can carry out the chilled(cooling) water supply (CWS) to quiet mould air chamber, the 2nd cooling water supply device can carry out the chilled(cooling) water supply (CWS) to the movable mould air chamber. At the fashioned whole in -process of foaming, the movable mould need not to be connected with cooling water supply device through pipelines such as hoses, and the operation of movable mould can not receive the interference of various pipelines like traditional movable mould, and the action is smooth and easy steady more. Compared with the prior art, the utility model discloses a move smooth and easy foaming forming device, the action of its movable mould is smooth and easy steady more, the mould more accurate stability of opening and shutting, novel structure is reasonable, and the practicality is strong.

Description

A kind of action foaming and forming apparatus smoothly

Technical field

This utility model relates to mechanical field, is specifically related to a kind of action foaming and forming apparatus smoothly.

Background technology

The structure of foaming and forming apparatus has been known, and back plate and framework (on fixing side) are attached in fixing layback template.Recess punch die (on fixing side) is arranged on framework by central plate.Back plate, framework, central plate, and recess punch die collectively constitute vaporium.After vaporium, raw material loading machine and ejector pin are arranged on the back side of back plate.Cooling water injection parts and vapor injection parts provide on framework, and cooling water pipe is connected to cool down on water injection parts.

Back plate and framework (in active side) are arranged in active side draw ring.Tang punch die (in active side) passes through central plate, is arranged on framework.Back plate, framework, central plate, and tang punch die collectively constitute vaporium.Cooling water injection parts and vapor injection parts are arranged on framework, and cooling water pipe is connected to cool down on water injection parts.Recess punch die and tang punch die are adapted for a unit, thus form cavity.

In order to form mold by above-mentioned resin foam molding machine, the raw material being made up of foamed resin passes through raw material loading machine, is filled into cavity.It follows that steam is from vapor injection parts, it is incorporated into vaporium, and additionally, steam is also by having crept into the steam hole (not display) of recess punch die and tang punch die, is incorporated into cavity, thus heating raw materials.So raw material of heating bubbles, and is fused into the mold of requirement.Now, punch die and framework are heated to the high temperature of about 120 DEG C.

Hereafter, cooling water is provided by cooling water pipe from cooling water injection parts, and cools down water from the back side that nozzle is ejected into recess punch die and tang punch die, thus the mold in cooling cavities.Punch die and framework are cooled to the low temperature of about 40 DEG C.After cooling completes, recess punch die and tang punch die are separated and are opened, and mold is released by ejector pin.

In above-mentioned forming step, introduce the raw material in the steam not only heating cavity of vaporium, and heat the back plate collectively constituting vaporium, framework, and central plate, even recess punch die and tang punch die.Additionally, when mold cools down in cavity, recess punch die and tang punch die, and simultaneously, back plate, framework, and central plate, the most injected water cooling from nozzle.But, in the structure member of these composition vaporiums, the parts in addition to recess punch die and tang punch die do not have any impact to the quality of mold.Whenever repeating cooling and heating the step of these miscellaneous parts, the heat energy of steam is wasted.Particularly, the considerable part contribution of steam thermal energy comes the part of firing equipment, such as framework.

The prior art is in practical work process, and dynamic model need to be connected with steam providing apparatus by pipelines such as flexible pipes, and the operation of dynamic model can be disturbed by various pipelines, and action is the most smooth and easy steadily, and practicality has much room for improvement.

In consideration of it, the problems referred to above are furtherd investigate by inventor, this case is then had to produce.

Utility model content

The purpose of this utility model is that the action providing a kind of dynamic model is the most smooth and easy steadily, and mould open/close is more precise and stable, and shaping efficiency significantly improves, novel and reasonable structure, practical action foaming and forming apparatus smoothly.

In order to achieve the above object, the such technical scheme of this utility model employing:

A kind of action foaming and forming apparatus smoothly, including the quiet mould matched, dynamic model and the steam providing apparatus that quiet mould and dynamic model are supplied steam, it is formed with die cavity between described quiet mould and dynamic model, quiet mould air chamber it is formed with in described quiet mould, being formed with dynamic model air chamber in described dynamic model, described quiet mould air chamber connects with described die cavity respectively with dynamic model air chamber；Also include cooling water supply unit；Described cooling water supply unit includes the first cooling water supply unit and the second cooling water supply unit, described quiet mould air chamber connects with described first cooling water supply unit, described quiet mould is provided with the 3rd interface connected with described second cooling water supply unit, described dynamic model is provided with the 4th interface of coupling docking corresponding with described 3rd interface, described 4th interface connects with described dynamic model air chamber, connecting when described 4th interface is with described 3rd interface docking, described 3rd interface connects with described second cooling water supply unit.

Including mould quiet described at least two groups and dynamic model, each described quiet mould constitutes quiet module, and each described dynamic model constitutes dynamic model group.

Described quiet mould air chamber connects with described steam providing apparatus, described quiet mould is provided with the first interface connected with described steam providing apparatus, described dynamic model is provided with the second interface of coupling docking corresponding with described first interface, described second interface connects with described dynamic model air chamber, connects when described second interface docks with described first interface.

After using technique scheme, action of the present utility model foaming and forming apparatus smoothly, break through the structural form of conventional forming molds, in practical work process, when dynamic model moves to quiet mould and realizes matched moulds under the driving effect of driving means, 4th interface can dock with the 3rd Interface Matching, make dynamic model air chamber and the connection of the second cooling water supply unit, after the corresponding switch of operation, first cooling water supply unit can carry out chilled(cooling) water supply (CWS) to quiet mould air chamber, and the second cooling water supply unit can carry out chilled(cooling) water supply (CWS) to dynamic model air chamber.Foaming whole during, dynamic model without being connected with cooling water supply unit by pipelines such as flexible pipes, the operation of dynamic model will not as tradition dynamic model be disturbed by various pipelines, action is the most smooth and easy steadily.Compared with prior art, action of the present utility model foaming and forming apparatus smoothly, the action of its dynamic model is the most smooth and easy steadily, and mould open/close is more precise and stable, novel and reasonable structure, practical.

Accompanying drawing explanation

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

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

Fig. 3 is the structural representation of another angle of this utility model.

In figure:

1-quiet mould 11-quiet mould air chamber 12-first interface 13-the 3rd interface 14-the 5th interface 10-quiet module 101-the first end 102-the second end

2-dynamic model 21-dynamic model air chamber 20-dynamic model group

31-the first steam providing apparatus 311-the first jet chimney 312-the first steam jet 32-the second steam providing apparatus 321-the second jet chimney 322-the second steam jet 33-the 3rd steam providing apparatus 331-the 3rd steam cock 332-the 3rd vacuum switch 3321-quiet mould vacuum switch 3322-dynamic model vacuum switch 333-cooling water drainage go out to switch 3331-quiet mould cooling water drainage go out to switch 3332-dynamic model cooling water drainage go out switch

41-the first cooling water supply unit 411-the first cooling water pipeline 412-the first fountain head 42-the second cooling water supply unit 421-the second cooling water pipeline 422-the second fountain head

5-the first centralized operation portion 51-the first steam cock 52-the first cooling water switch 53-first cools down air switch 54-the first vacuum switch

6-the second centralized operation portion 61-the second steam cock 62-the second cooling water switch 63-second cools down air switch 64-the second vacuum switch

7-transfers framework 71-spray gun.

Detailed description of the invention

In order to the technical solution of the utility model is explained further, it is described in detail below by specific embodiment.

A kind of action foaming and forming apparatus smoothly of the present utility model, as Figure 1-3, including the quiet mould 1 matched, dynamic model 2 and the steam providing apparatus that quiet mould 1 and dynamic model 2 are supplied steam.

Being formed with die cavity between quiet mould 1 and dynamic model 2, be formed with quiet mould air chamber 11 in quiet mould 1, be formed with dynamic model air chamber 21 in dynamic model 2, quiet mould air chamber 11 connects with described die cavity respectively with dynamic model air chamber 21；Described steam providing apparatus includes the first steam providing apparatus 31 and the second steam providing apparatus 32 being all located on quiet mould 1, quiet mould air chamber 11 connects with the first steam providing apparatus 31, quiet mould 1 is provided with the first interface 12 connected with the second steam providing apparatus 32, dynamic model 2 is provided with the second interface (not shown) of coupling docking corresponding with first interface 12, described second interface connects with dynamic model air chamber 21, connects when described second interface docks with first interface 12.This utility model is in practical work process, when dynamic model 2 moves to quiet mould 1 and realizes matched moulds under the driving effect of driving means (not shown), second interface can dock with first interface 12 coupling, dynamic model air chamber 21 is made to connect with the second steam providing apparatus 32, after the corresponding switch of operation, first steam providing apparatus 31 can carry out steam supply to quiet mould air chamber 11, second steam providing apparatus 32 can carry out steam supply to dynamic model air chamber 21, it is achieved the supercharging heating in quiet mould 1 and the preheating of dynamic model 2 or foaming process.Foaming whole during, dynamic model 2 without being connected with steam providing apparatus by pipelines such as flexible pipes, the operation of dynamic model 2 will not as tradition dynamic model be disturbed by various pipelines, action is the most smooth and easy steadily.

Preferably, also include cooling water supply unit, described cooling water supply unit includes the first cooling water supply unit 41 and the second cooling water supply unit 42, quiet mould air chamber 11 connects with the first cooling water supply unit 41, quiet mould 1 is provided with the 3rd interface 13 connected with the second cooling water supply unit 42, dynamic model 2 is provided with the 4th interface (not shown) of coupling docking corresponding with the 3rd interface 13, described 4th interface connects with dynamic model air chamber 21, connecting when described 4th interface and the 3rd interface 13 dock, the 3rd interface 13 connects with the second cooling water supply unit 42.This utility model is in practical work process, when dynamic model 2 moves to quiet mould 1 and realizes matched moulds under the driving effect of driving means (not shown), 4th interface can dock with the 3rd interface 13 coupling, dynamic model air chamber 21 is made to connect with the second cooling water supply unit 42, after the corresponding switch of operation, first cooling water supply unit 41 can carry out chilled(cooling) water supply (CWS) to quiet mould air chamber 11, second cooling water supply unit 42 can carry out chilled(cooling) water supply (CWS) to dynamic model air chamber 21, it is achieved foamed products is cooled down by quiet mould 1 and dynamic model 2 after expanding.Foaming whole during, dynamic model 2 without being connected with cooling water supply unit by pipelines such as flexible pipes, the operation of dynamic model 2 will not as tradition dynamic model be disturbed by various pipelines, action is the most smooth and easy steadily.

Preferably, first interface 12 and the 3rd interface 13 are formed on the composition surface that quiet mould 1 is corresponding with dynamic model 2, and described second interface and the 4th interface are formed on the composition surface that dynamic model 2 is corresponding with quiet mould 1.This simple in construction and be easy to first interface 12 and dock with the second interface.

Preferably, including at least two quiet mould of group 1 and dynamic models 2, each quiet mould 1 constitutes quiet module 10, and each dynamic model 2 constitutes dynamic model group 20, and described steam providing apparatus also includes the 3rd steam providing apparatus 33 being located on quiet mould 1；Each quiet mould 1 links together, and each quiet mould air chamber 11 is connected；Each dynamic model 2 links together, and each dynamic model air chamber 21 is connected；First steam providing apparatus 31 and the second steam providing apparatus 32 are located at the first end 101 of quiet module 10,3rd steam providing apparatus 33 is located at the second end 102 that quiet module 10 is relative with the first end 101, i.e. first end 101 is the one end in the orientation of each quiet mould 1, and the second end 102 is the other end in the orientation of each quiet mould 1；Quiet mould air chamber 11 connects with the 3rd steam providing apparatus 33, quiet module 10 is provided with the 5th interface 14 connected with the 3rd steam providing apparatus 33, dynamic model group 20 is provided with the 6th interface of coupling docking corresponding with the 5th interface 14, described 6th interface connects with dynamic model air chamber 21, connects when described 6th interface and the 5th interface 14 dock.This utility model is in practical work process, when dynamic model 2 moves to quiet mould 1 and realizes matched moulds under the driving effect of driving means (not shown), 6th interface can dock with the 5th interface 14 coupling, dynamic model air chamber 21 is made to connect with the 3rd steam providing apparatus 33, after the corresponding switch of operation, 3rd steam providing apparatus 33 can carry out steam supply to quiet mould air chamber 11,3rd steam providing apparatus 33 can carry out steam supply to dynamic model air chamber 21, it is achieved the supercharging heating in quiet mould 1 and the preheating of dynamic model 2 or foaming process；Or when quiet mould 1 and dynamic model 2 are preheated by the first steam providing apparatus 31 and the second steam providing apparatus 32, the 3rd steam providing apparatus 33 is exhausted；Or expanded material is carried out supercharging heating with the first steam providing apparatus 31 and the second steam providing apparatus 32 in foaming process simultaneously, expanded material is made to touch the steam of homogeneous temperature, especially make upper and lower two quiet moulds 1 contact with steam from upper and lower both direction with two dynamic models 2 simultaneously, expanded material in upper and lower two die cavities is heated by uniform steam, clinkering degree is good, uniform in foaming, steady quality is excellent.Foaming whole during, dynamic model 2 without being connected with steam providing apparatus by pipelines such as flexible pipes, the operation of dynamic model 2 will not as tradition dynamic model be disturbed by various pipelines, action is the most smooth and easy steadily.

Preferably, the 5th interface 14 is formed on the composition surface that quiet module 10 is corresponding with dynamic model group 20, and described 6th interface is formed on the composition surface that dynamic model group 20 is corresponding with quiet module 10.This simple in construction and be easy to the 5th interface 14 and dock with the 6th interface.

Preferably, first interface 12 is divided at relative two drift angle of quiet module 10 with the 5th interface 14.This structure can extend the time of contact of steam and cooling water etc. and expanded material, strengthens heating and cooling effect.

Preferably, the first steam providing apparatus 31 constitutes the first centralized operation portion 5 together with the first cooling water supply unit 41 concentrated setting, and the second steam providing apparatus 32 constitutes the second centralized operation portion 6 together with the second cooling water supply unit 42 concentrated setting；First centralized operation portion 5 connects steam generation source apparatus (not shown), cooling water source device (not shown), cooling air source device (not shown) and vacuum extractor (not shown)；First centralized operation portion 5 has the first steam cock 51 of control steam, control cools down the first cooling water switch 52 of water, control the first of cooling air cools down air switch 53 and the first vacuum switch 54 of control vacuum pumping；Second centralized operation portion 6 connects steam generation source apparatus, cooling water source device, cooling air source device and vacuum extractor；Second centralized operation portion 6 has the second steam cock 61 of control steam, control cools down the second cooling water switch 62 of water, control the second of cooling air cools down air switch 63 and the second vacuum switch 64 of control vacuum pumping；3rd steam providing apparatus 33 connects steam generation source apparatus and vacuum extractor, and the 3rd steam providing apparatus 33 has the cooling water drainage of the 3rd steam cock 331 of control steam, the 3rd vacuum switch 332 controlling vacuum pumping and discharge cooling water and goes out switch 333.This utility model is in practical work process, operate the first steam cock 51 and can be turned on and off from first end 101 steam supply to quiet mould 1, operate the first cooling water switch 52 and can be turned on and off the chilled(cooling) water supply (CWS) to quiet mould 1, operation the first cooling air switch 53 can be turned on and off the cooling air supply to quiet mould 1, operates the first vacuum switch 54 and can be turned on and off from the vacuum pumping to quiet mould 1 of first end 101；Operate the second steam cock 61 and can be turned on and off the steam supply to dynamic model 2, operate the second cooling water switch 62 and can be turned on and off the chilled(cooling) water supply (CWS) to dynamic model 2, operation the second cooling air switch 63 can be turned on and off the cooling air supply to dynamic model 2, operates the second vacuum switch 64 and can be turned on and off the vacuum pumping to dynamic model 2；Operate the 3rd steam cock 331 can be turned on and off from the second end 102 quiet mould 1 and the steam supply of dynamic model 2, operating the 3rd vacuum switch 332 can be turned on and off from the second end 102 quiet mould 1 and the vacuum pumping of dynamic model 2, operation cooling water drainage goes out switch 333 can be turned on and off the discharging operation to the cooling water in quiet mould 1 and dynamic model 2.In specific operation process, during as quiet mould 1 and dynamic model 2 are preheated, operable first steam cock 51 and the second steam cock 61 and the 3rd vacuum switch 332, make steam be entered in quiet mould 1 and dynamic model 2 by the first end 101, then discharged by the second end 102；If expanded material is carried out in foaming process steam heating pressurization, operable first steam cock the 51, second steam cock 61 and the 3rd steam cock 331, in quiet mould 1 and dynamic model 2, inject steam, it is achieved expanded material is carried out steam heating pressurization by the first end 101 and the second end 102 simultaneously.

Preferably, the 3rd steam cock 331 includes the quiet mould steam cock controlling quiet module 10 steam and the dynamic model steam cock controlling dynamic model group 20 steam；3rd vacuum switch 332 includes the quiet mould vacuum switch 3321 controlling the vacuum pumping of quiet module 10 and controls the dynamic model vacuum switch 3322 of dynamic model group 20 vacuum pumping；Cooling water drainage goes out switch 333 and includes controlling quiet module 10 and discharge the quiet mould cooling water drainages of cooling water and go out switch 3331 and control dynamic model group 20 and discharge the dynamic model cooling water drainage of cooling water and go out switch 3332.This utility model is in practical work process, operate quiet mould steam cock and can be turned on and off from second end 102 steam supply to quiet mould 1, operation dynamic model steam cock can be turned on and off from second end 102 steam supply to dynamic model 2, operate quiet mould vacuum switch 3321 and can be turned on and off from the vacuum pumping to quiet mould 1 of second end 102, operation dynamic model vacuum switch 3322 can be turned on and off from the vacuum pumping to dynamic model 2 of second end 102, operate quiet mould cooling water drainage go out switch 3331 can be turned on and off in quiet mould 1 cooling water discharging operation, operation dynamic model cooling water drainage goes out switch 3332 can be turned on and off the discharging operation to the cooling water in dynamic model 2.

In order to realize the first cooling water supply unit 41 and the concrete structure of the second cooling water supply unit 42 spray cooling water, preferably, first cooling water supply unit 41 is provided with the first cooling water pipeline 411 being in quiet mould air chamber 11, and the first cooling water pipeline 411 is equipped with multiple the first fountain head 412 arranged and spray towards described die cavity along the first cooling water pipeline 411；Second cooling water supply unit 42 is provided with the second cooling water pipeline 421 being in dynamic model air chamber 21, and the second cooling water pipeline 421 is equipped with multiple the second fountain head 422 arranged and spray towards described die cavity along the second cooling water pipeline 421.This structure spray cooling water is uniform and cooling effectiveness is high.

Preferably, the first cooling water pipeline 411 connects with described cooling air source device also by switch respectively with the second cooling water pipeline 421.So, after the first cooling water pipeline 411 and the second cooling water pipeline 421 cooling water supply, operable corresponding switch, utilize the first cooling water pipeline 411 and the second cooling water pipeline 421 and the first fountain head 412 and the second fountain head 422 to carry out cooling down the injection of air, while improving cooling uniformity coefficient and efficiency, increase the occupation mode of parts, parts utilization ratio is high, novel and reasonable structure, low cost, practical.

Preferably, the first steam providing apparatus 31 is provided with the first jet chimney 311 being in quiet mould air chamber 11, and the first jet chimney 311 is equipped with multiple the first steam jet 312 arranged and spray towards described die cavity along the first jet chimney 311；Second steam providing apparatus 32 is provided with the second jet chimney 321 being in dynamic model air chamber 21, and the second jet chimney 321 is equipped with multiple the second steam jet 322 arranged and spray towards described die cavity along the second jet chimney 321；First jet chimney 311 connects with described cooling air source device also by switch respectively with the second jet chimney 321.So, after the first jet chimney 311 and the second jet chimney 321 supply steam, operable corresponding switch, utilize the first jet chimney 311 and the second jet chimney 321 and the first steam jet 312 and the second steam jet 322 to carry out cooling down the injection of air, while improving cooling uniformity coefficient and efficiency further, more increase the occupation mode of parts, parts utilization ratio is high, novel and reasonable structure, low cost, practical.

Preferably, the switching framework 7 transferring in board (not shown) by quiet mould 1 and dynamic model 2 is also included.Changing quiet mould 1 at present and dynamic model 2 is all to carry out Assembling replacing on board, owing to the assembling of quiet mould 1 and dynamic model 2 is cumbersome, need to spend 3-4 hour, in the process, board needs to shut down, it is impossible to runs, has a strong impact on machine operation efficiency；And this utility model is in actual use, can quiet mould 1 and dynamic model 2 direct-assembling transferred on framework 7, do not affect the properly functioning of machine, again switching framework 7 is directly arranged on board by simple mounting means after being completed, the most quiet mould 1 and the dismounting of dynamic model 2 and change the most convenient, substantially increase production efficiency.

In order to realize the framework 7 concrete mounting structure with board of transferring, it is preferable that switching framework 7 is linked together with board by alignment pin, switching framework 7 is equipped with slide rail, and is slided relative to board by described slide rail.This structure is easy to be adjusted the position of quiet mould 1 and dynamic model 2.

Preferably, switching framework 7 is provided with in die cavity the spray gun 71 carrying out material feeding.So, spray gun 71 can also be contained on switchover frame frame 7 before being installed to board the most in advance, is installed along with on board the most again, can further improve production efficiency.

In order to realize the mounting structure of spray gun 71 and switching framework 7, it is preferable that multiple spray guns 71 with transfer that framework 7 is dismantled and assembled to be connected.

Preferably, quiet mould 1 is formed with multiple charging aperture (not shown), and multiple spray guns 71 connect one to one with each described charging aperture.Spray gun 71 and charging aperture concretely grafting form, convenient to use.

Action of the present utility model foaming and forming apparatus smoothly, the concrete form of slide rail can be adjusted according to actual requirement and design；Saying in a broad sense, the form of switching framework is adjusted also dependent on actual requirement and designs；First cooling water pipeline, the first fountain head, the second cooling water pipeline, the second fountain head, the first jet chimney, the first steam jet, the second jet chimney and the concrete form of the second steam jet, position, quantity and distribution form etc. are set all can be adjusted according to actual requirement and design；First steam cock, the first cooling water switch, the first cooling air switch, the first vacuum switch, the second steam cock, the second cooling water switch, the second cooling air switch, the second vacuum switch, the 3rd steam cock, the 3rd vacuum switch and cooling water drainage go out the concrete form of switch and can be adjusted according to actual requirement and design；Saying in a broad sense, the form in the first centralized operation portion and the second centralized operation portion is adjusted also dependent on actual requirement and designs, as all arranged deafener；The concrete form of steam generation source apparatus, cooling water source device, cooling air source device and vacuum extractor can be adjusted according to actual requirement and design；First interface, the second interface, the 3rd interface, the 4th interface, the 5th interface and the concrete form of the 6th interface, position, Butt sealing form etc. are set all can be adjusted according to actual requirement and design；Quiet mould, dynamic model or quiet module, the substantially form of dynamic model group can be prior art, but can be to coordinate the technical solution of the utility model to make adaptive structural adjustment.

Product form of the present utility model is not limited to this case diagram and embodiment, and anyone carries out the suitably change of similar thinking to it or modifies, and all should be regarded as without departing from patent category of the present utility model.

Claims (3)

1. an action foaming and forming apparatus smoothly, including the quiet mould matched, dynamic model and the steam providing apparatus that quiet mould and dynamic model are supplied steam, it is formed with die cavity between described quiet mould and dynamic model, quiet mould air chamber it is formed with in described quiet mould, being formed with dynamic model air chamber in described dynamic model, described quiet mould air chamber connects with described die cavity respectively with dynamic model air chamber；It is characterized in that: also include cooling water supply unit；Described cooling water supply unit includes the first cooling water supply unit and the second cooling water supply unit, described quiet mould air chamber connects with described first cooling water supply unit, described quiet mould is provided with the 3rd interface connected with described second cooling water supply unit, described dynamic model is provided with the 4th interface of coupling docking corresponding with described 3rd interface, described 4th interface connects with described dynamic model air chamber, connecting when described 4th interface is with described 3rd interface docking, described 3rd interface connects with described second cooling water supply unit.

A kind of action foaming and forming apparatus smoothly the most according to claim 1, it is characterised in that: including quiet mould and dynamic model described at least two groups, each described quiet mould constitutes quiet module, and each described dynamic model constitutes dynamic model group.

A kind of action foaming and forming apparatus smoothly the most according to claim 2, it is characterized in that: described quiet mould air chamber connects with described steam providing apparatus, described quiet mould is provided with the first interface connected with described steam providing apparatus, described dynamic model is provided with the second interface of coupling docking corresponding with described first interface, described second interface connects with described dynamic model air chamber, connects when described second interface docks with described first interface.