CN208697802U - A kind of cold formed mold base workbench group of electromagnetic energy electrical heat energy steam energy thermoforming - Google Patents
A kind of cold formed mold base workbench group of electromagnetic energy electrical heat energy steam energy thermoforming Download PDFInfo
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- CN208697802U CN208697802U CN201820543407.2U CN201820543407U CN208697802U CN 208697802 U CN208697802 U CN 208697802U CN 201820543407 U CN201820543407 U CN 201820543407U CN 208697802 U CN208697802 U CN 208697802U
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Abstract
The utility model discloses a kind of cold formed mold base workbench groups of electromagnetic energy electrical heat energy steam energy thermoforming, there is installation screw hole location on mold base work top, mold can quickly be mounted on this base table face, there are three types of different heating modes for this mold base workbench group, it can be used for installing electromagnetic heating tube and generate the thermally conductive cooling hinge upper core generation thermal energy of electromagnetic wave induction heating, also mountable electrothermal tube is directly heated in pedestal working chamber bottom back side to thermally conductive cooling hinge conduction thermal energy, or is heated into cold and hot conduction is intracavitary to thermally conductive cooling hinge with steam.There is cooling water access aperture on the right side of pedestal working cavity side when cooling, water enters cavity and takes heat fast cooling out of by the apopore in left side again to thermally conductive cooling hinge fast endothermic, thermally conductive cooling hinge quickly conducts hot cold source to mold through base table face, to the quick hot briquetting of material and cooling and shaping, this utility model can improve production yield and speed and lower energy consumption.
Description
Technical field
The utility model relates to a kind of oil pressure units for needing thermoforming cold formed, can be added with electromagnetic energy electrical heat energy steam
Heat, the cold and hot base table component of transporting heat energy to mold heating and water cooling.
Background technique
The cold formed equipment of existing thermoforming and ducts fluid mold on the market is heated because needing to use high-temperature steam,
(because cooling water pipeline fluid is identical) is cooled down with water at low temperature but cold and hot transfer efficiency is low, even if useful solenoid tube electrothermal tube
The molding equipment of heating also because not solving the base table of cooling and shaping simultaneously, so all using the biradical seat of double molds
(single hot radical seat) (single cold pedestal), mechanically or manually movement moves moulds, the cold formed manufacturing process of completion thermoforming, but because
During thermoforming completion needs shifting formwork to cool down this again to cold formed base station, because moving moulds not by the closure pressure of duration
Power, (being that foamed material has external swollen turgor pressure power in mold) is so production process pressure transient, this improves product not
Yield, and cool/heat efficiency is also low, through a kind of cold formed mold base of electromagnetic energy electrical heat energy steam energy thermoforming of this utility model
The cold formed technique of entire thermoforming can all be completed in a base table face, and can selected on demand wherein by workbench group
A kind of heating method, and converted between cold and hot energy faster more energy efficient through thermally conductive cooling hinge efficiency.
Utility model content
A kind of cold formed mold base workbench group of electromagnetic energy electrical heat energy steam energy thermoforming of the utility model, to solve
The above problem.
In order to solve the above-mentioned technical problem, the utility model provides the following technical solution:
A kind of cold formed mold base workbench group of electromagnetic energy electrical heat energy steam energy thermoforming of the utility model, (shaping mould
Tool is that moving member can be replaced at any time) top base table assembly are as follows: upper thermal insulation layer (nonmagnetic high pressure resistant thermal insulation board) is installed above
There are upper thermal insulation layer magnetic Electrothermal ring and top base working cavity (no magnetic heat-barrier material or aluminium alloy) and top base workbench
(top base working cavity and top base workbench are bonded in advance with high-temperature seal adhesive) passes through top base with top base long screw
Workbench screw lockhole and top base working chamber screw lockhole and upper thermal insulation layer screw lockhole, it is solid through top plate screw lockhole and equipment
Determine top plate fastening installation, there is top base Cooling and Heat Source to conduct chamber in top base working cavity and upper table surface component, it is intracavitary to have top base
The thermally conductive cooling hinge of workbench and top base workbench metal cylinder, and have in two side of top base working chamber or so, top base work
Make chamber Cooling and Heat Source to portal into hole and top base working chamber Cooling and Heat Source, and there are short screw lockholes in top base work top, through upper
The short screw of base mold passes through the short screw hole location of molding die, top base molding die can be mounted in base table.
Bottom base table assembly are as follows: lower thermal insulation layer (nonmagnetic high pressure resistant thermal insulation board) is equipped with lower thermal insulation layer magnetic above
Electrothermal ring and bottom base working cavity (no magnetic heat-barrier material or aluminium alloy) and bottom base workbench (bottom base working cavity
Bonded in advance with bottom base workbench with high-temperature seal adhesive), with bottom base long screw, pass through bottom base workbench screw lockhole and
Bottom base working chamber screw lockhole and lower thermal insulation layer screw lockhole are fastened through movable plate screw lockhole and oil pressure (equipment) movable plate
It installs, there is bottom base Cooling and Heat Source to conduct chamber in bottom base working cavity and following table component, it is intracavitary to have bottom base workbench thermally conductive
Cooling hinge and bottom base workbench metal cylinder, and have in two side of bottom base working chamber or so, bottom base working chamber Cooling and Heat Source
Portal into hole and bottom base working chamber Cooling and Heat Source, and in bottom base work top there are short screw lockhole, it is short through bottom base mold
Screw passes through the short screw hole location of molding die, bottom base molding die can be mounted in base table.
Upper and lower base table component is installed closure, has a molding to have material forming cavity.
Upper and lower base table component, can selection solenoid tube or heating tube peace according to need in thermal insulation layer after combining
Dress, to generate the thermal energy mode of demand, if electromagnetic type (pedestal working cavity is no magnetic, heat-barrier material), can produce medium frequency electric
Magnetic energy is conducted to pedestal Cooling and Heat Source and conducts intracavitary metal cylinder magnetic energy heating by magnetic wave, if electric heating pipe type (pedestal working chamber
For aluminium alloy, good conductor material) it directly heats through electric heating to pedestal working cavity, if steam-type, (pedestal working chamber is aluminium
Alloy or without magnetic heat-barrier material all can) steam by heat source on the right side of pedestal working cavity enters heating left hole outflow (flowing into hole
Heating), three of the above mode is all needed through the thermally conductive cooling hinge conduction thermal energy of base table, also through pedestal working chamber when water is cooling
The thermally conductive cooling hinge structure of intracorporal base table is quickly cooled down, in same base table, this is practical when cold/hot shaped
Novel to use electromagnetic energy respectively, electrical heat energy, steam thermal energy quickly produces the material for needing thermoforming cold formed.
As the optimal technical scheme of utility model, the generation and conduction of hot cold energy effect are all in base table group structure
The inside is direct fastened by screw becomes equipment above and below oil press bench some on hold-down plate surface, and molding die does not need
Pipeline is arranged in mold, can lower the cost of mold developing, and old mold unlocking die hole also can directly be made with screw installation
With, can lower in this way new equipment new construction exploitation new die quantity.
As the optimal technical scheme of the utility model, upper and lower base table group has for electromagnetic energy electric heating in structure
Can, steam thermal energy, is heated and the Cooling and Heat Source of the thermally conductive cooling hinge structure of water cooling integrated conducts chamber.
As the optimal technical scheme of the utility model, assembled in upper and lower base table and upper bottom base working cavity
Cooling and Heat Source conduction cavity configuration in, have the thermally conductive cooling hinge of base table, wherein being installed with metal cylinder and pedestal working cavity
Component is to be bonded completely, this hinge not only acts as thermally conductive and cooling effect, and plays the role of reinforcement structure support.
As the optimal technical scheme of the utility model, heated with solenoid tube, it need to be (nonmagnetic high pressure resistant heat-insulated in thermal insulation layer
Plate) on electromagnetic wave heating circle pipe is installed, pedestal working cavity need to subtract for nonmagnetic heat-barrier material (screw need to be stainless steel) at this time
Low or exempt electromagnetic wave and causes improper heating and energy loss by the absorption of other objects, medium frequency electric magnetic wave penetrates pedestal work when heating
Make cavity by the metal cylinder electromagnetic wave absorption energy warms in thermally conductive cooling hinge, is passed through the thermally conductive cooling hinge of base table
Pass thermal energy.
As the optimal technical scheme of the utility model, electricity consumption heat pipes heat need to be on thermal insulation layer (high pressure resistant thermal insulation board)
Electrical heat energy heating coil pipe is installed, pedestal working cavity need to be aluminium alloy good conductor material at this time, and heating tube fever directly heats chamber
Body bottom thermal transfer is to the thermally conductive cooling hinge transferring heat energy of base table.
It as the optimal technical scheme of the utility model, is heated with steam, the right side of pedestal working cavity is steam inlet
Left side is outlet, and high-temperature steam is flowing disengaging, thermal energy is absorbed through the thermally conductive cooling hinge of base table, through thermally conductive cooling hinge
Transferring heat energy, while the material of pedestal working cavity can further strengthen structural strength with aluminium alloy, or be blocked with heat-barrier material
Heat loss all can, if when with heat-barrier material, thermal insulation layer can omit installation.
As the optimal technical scheme of the utility model, while cooling.Cooling water is through water inlet on the right side of pedestal working cavity
Chamber is conducted into Cooling and Heat Source, wing hinge is absorbed and conducts thermal energy, is taken thermal energy out of through water outlet on the left of pedestal working cavity, to reinforce
Further cold cycling efficiency, the right side intake position as a high position, and it is that low level water flow is designed as high in and low out that left side, which goes out water level, it is ensured that cold
In Thermal Cycling, Cooling and Heat Source conducts the intracavitary not ponding of chamber, improves circulation production efficiency and saves energy consumption.
Compared with prior art, the utility model has the beneficial effects that the utility model provides a kind of electromagnetic energy electric heating
Can the cold formed mold base workbench group of steam energy thermoforming, can on oil pressure unit in lower platen with three kinds of different thermal energy sides
Formula heating, through the intracorporal thermally conductive cooling hinge of chamber can quick heating and cooling, can solve all the time, traditional cold/hot shaped equipment
Cold-hot plate transfer efficiency is too low, and the biradical seat of double molds (single hot radical seat) (single cold pedestal) used, mechanically or manually moves
Move moulds generation closure pressure force in moving mold and the mechanical action of extra complexity and a large amount of artificial and production process
The fraction defective for declining and generating improves, therefore the utility model, other than heat energy source can choose, thermoforming is cold formed all
It completes under a Working table structure pedestal, produces at the same pressure, further improve the yield and speed of production of product.
Detailed description of the invention
Attached drawing is used to provide a further understanding of the present invention, and constitutes part of specification, practical with this
Novel case study on implementation is used to explain the utility model together, does not constitute limitations of the present invention.In the accompanying drawings:
FIG. 1 is a schematic structural view of the utility model;
Fig. 2 is the utility model structural decomposition diagram;
Fig. 3 is the fixed top plate lockhole schematic diagram of the utility model device;
Fig. 4 is thermal insulation layer and magnetic on the utility model, Electrothermal ring schematic diagram;
Fig. 5 is that the positive side of the utility model top base working cavity and Cooling and Heat Source pass in and out hole location schematic diagram;
Fig. 6 is the utility model top base table front schematic top plan view;
Fig. 7 is the utility model top base workbench back side schematic top plan view;
Fig. 8 is the utility model top base workbench A side schematic view;
Fig. 9 is the utility model top base workbench B side schematic view;
Figure 10 is the utility model top base workbench C side schematic view;
Figure 11 is the utility model top base workbench D side schematic view;
Figure 12 is the utility model top base molding die hole location schematic diagram;
Figure 13 is the utility model oil pressure (equipment) movable plate lockhole schematic diagram;
Figure 14 is thermal insulation layer and magnetic under the utility model, Electrothermal ring schematic diagram;
Figure 15 is that the positive side of the utility model bottom base working cavity and Cooling and Heat Source pass in and out hole location schematic diagram;
Figure 16 is the utility model bottom base table front schematic top plan view;
Figure 17 is the utility model bottom base workbench back side schematic top plan view;
Figure 18 is the utility model bottom base workbench A side schematic view;
Figure 19 is the utility model bottom base workbench B side schematic view;
Figure 20 is the utility model bottom base workbench C side schematic view;
Figure 21 is the utility model bottom base workbench D side schematic view;
Figure 22 is the utility model bottom base molding die hole location schematic diagram.
In figure: the fixed top plate of 1 equipment, 2 top plate screw lockholes, thermal insulation layer (nonmagnetic high pressure resistant thermal insulation board) on 3, on 4 every
Thermosphere screw lockhole, thermal insulation layer magnetic Electrothermal ring on 5,6 top base working cavities (no magnetic heat-barrier material or aluminium alloy), on 7
Pedestal working chamber Cooling and Heat Source is portalled into hole, 8 top base working chamber Cooling and Heat Sources, 9 top base working chamber screw lockholes, 10 top base works
Make platform, the thermally conductive cooling hinge of 11 top base workbench, 12 top base workbench metal cylinders, 13 top base Cooling and Heat Sources conduct chamber,
14 top base workbench screw lockholes, 15 top base long screws, the short screw lockhole of 16 top base work tops, 17 top bases at
Pattern has the 18 short screws of top base mold, 19 oil pressure (equipment) movable plate, 20 movable plate screw lockholes, 21 lower thermal insulation layer (no magnetic
Property high pressure resistant thermal insulation board), 22 lower thermal insulation layer screw lockholes, 23 lower thermal insulation layer magnetic Electrothermal rings, 24 bottom base working cavity (nothings
Magnetic heat-barrier material or aluminium alloy), 25 bottom base working chamber Cooling and Heat Sources are portalled into hole, 26 bottom base working chamber Cooling and Heat Sources, 27 lower bases
Seat working chamber screw lockhole, 28 bottom base workbench, the thermally conductive cooling hinge of 29 bottom base workbench, 30 bottom base workbench metals
Cylinder, 31 bottom base Cooling and Heat Sources conduct chamber, 32 bottom base workbench screw lockholes, 33 bottom base long screws, the work of 34 bottom bases
The short screw lockhole of table top, 35 bottom base molding dies, the 36 short screws of bottom base mold, the short screw hole location of 37 molding dies, 38 one-tenth
Type mold materials forming cavity.
Specific embodiment
The following will be combined with the drawings in the embodiments of the present invention, carries out the technical scheme in the embodiment of the utility model
Clearly and completely describe, it is clear that described embodiment, only the utility model a part of the embodiment, rather than whole
Embodiment, based on the embodiments of the present invention, those of ordinary skill in the art are without making creative work
Every other embodiment obtained, fall within the protection scope of the utility model.
Fig. 1-2 2 is please referred to, the utility model discloses a kind of technical solution: a kind of electromagnetic energy electrical heat energy steam energy thermoforming
Cold formed mold base workbench group.
Top base table assembly is that upper thermal insulation layer (3) (nonmagnetic high pressure resistant thermal insulation board) is equipped with thermal insulation layer above
There are top base work in magnetic Electrothermal ring (5) and two sides of top base working cavity (6) (no magnetic heat-barrier material or aluminium alloy) left and right
Chamber Cooling and Heat Source is portalled (8) into hole (7) top base working chamber Cooling and Heat Source and there is upper base at top base workbench (10), the workbench back side
The thermally conductive cooling hinge (11) of seat workbench and top base workbench metal cylinder (12) are passed through upper with top base long screw (15)
Base table screw lockhole (14) and top base working chamber screw lockhole (9) and upper thermal insulation layer screw lockhole (4), through top plate spiral shell
Silk lockhole (2) and equipment fixed top plate (1) fastening are installed, and have top base Cooling and Heat Source to conduct chamber (13) in base table component,
Top base workbench has the short screw lockhole (16) of top base work top, through the short screw of top base mold (18), passes through shaping mould
Have short screw hole location (37), top base molding die (17) can be mounted in base table.
Top base table assembly is by using high temperature resistant at top base working cavity (6), top base workbench (10) combination
Sealant is anchored on equipment fixed top plate (1) with upper thermal insulation layer magnetic Electrothermal ring (3) through top base long screw (15) again, under
Base table component be by bottom base working cavity (24), bottom base workbench (28) combination refractory seals glue again and
Lower thermal insulation layer (21) is anchored on device activity plate (19) through bottom base long screw (33), and internal structure forms top base Cooling and Heat Source
Chamber (13), bottom base Cooling and Heat Source conduction chamber (31) are conducted, and in top base workbench (10), bottom base workbench (28) through forming
The short screw hole location (37) of mold can easily install top base molding die (17), bottom base molding die (35).
Bottom base table assembly is that lower thermal insulation layer (21) (nonmagnetic high pressure resistant thermal insulation board) is equipped with lower thermal insulation layer above
There are bottom base work in magnetic Electrothermal ring (23) and two sides of bottom base working cavity (24) (no magnetic heat-barrier material or aluminium alloy) left and right
Make that chamber Cooling and Heat Source is portalled (26) into hole (25) bottom base working chamber Cooling and Heat Source and bottom base workbench (28), the workbench back side have
The thermally conductive cooling hinge (29) of bottom base workbench and bottom base workbench metal cylinder (30) are worn with bottom base long screw (33)
Bottom base workbench screw lockhole (32) and bottom base working chamber screw lockhole (27) and lower thermal insulation layer screw lockhole (22) are crossed, is passed through
Movable plate screw lockhole (20) and oil pressure (equipment) movable plate (19) fastening are installed, and have bottom base cold in bottom base table assembly
Heat source chamber (31) has the short screw lockhole (34) of bottom base work top on bottom base workbench, through the short spiral shell of bottom base mold
Silk (36) passes through the short screw hole location (37) of molding die, bottom base molding die (35) can be mounted in base table,
Upper and lower base table component is closed to form mould material forming cavity (38).
Working principle of the utility model is:
1. base table face component is divided into two groups up and down, pedestal working cavity high-temperature seal adhesive and pedestal worked before this
After platform assembling, then with long screw thermal insulation layer is installed in order and is fixed on the fixation top plate and movable plate of oil pressure unit, installs
At thermal insulation layer on have electromagnetic heating coil or electrothermal tube, cavity components closure after have Cooling and Heat Source conduct chamber, inside have thermally conductive cooling
Hinge and cavity inner bottom surface, which are bonded and play the role of being equipped in reinforcement structure strength support and hinge, absorbs induced electricity magnetic wave
Metal cylinder, after two sides of left and right have Cooling and Heat Source manhole appendix, mold and base table component to be installed, what mold was closed up and down
Chamber is the cold formed material forming cavity of thermoforming.
2. when electromagnetic heating, the work of medium frequency electric magnetosphere, generation electromagnetic wave, which penetrates pedestal working cavity, (needs nonmagnetic heat-insulated material
Material) into Cooling and Heat Source conduction chamber, it generates heat through metal cylinder electromagnetic wave absorption energy, is passed to the thermally conductive cooling hinge of base table
Thermal energy is sent, thermal energy is conducted to conduct heat to molding die, and thermal energy, hot briquetting material are conducted in material forming cavity.
3. electrothermal tube heats, pedestal working cavity (needs aluminium alloy Heat Conduction Material), and electrothermal tube generates thermal energy and directly heats
Its pedestal working cavity transmits thermal energy to the thermally conductive cooling hinge of cavity surrounding closing face and base table, thermal energy conducted to
Molding die heat transfer, conducts thermal energy, hot briquetting material in material forming cavity.
4. steam heats, it is outlet that the right side of pedestal working cavity, which is on the left of steam inlet, high-temperature steam be flow into
Out, thermal energy is absorbed through the thermally conductive cooling hinge of base table, thermal energy is conducted to conduct heat to molding die, passes in material forming cavity
Thermally conductive energy, hot briquetting material.And the material of cavity components can use aluminium alloy reinforcement structure intensity, or block heat with heat-barrier material
Loss all may be used.
5. while cooling.Right side water inlet of the cooling water through pedestal working cavity conducts chamber into Cooling and Heat Source, through pedestal work
Make the thermally conductive cooling hinge of platform and absorb thermal energy, is taken out of thermal energy by left side water outlet, to reinforce further cold cycling efficiency, the right side
Hole location of intaking is a high position, and it is low level that left side, which is discharged hole location, and Cooling and Heat Source conducts intracavitary water flow and is designed as high in and low out, it is ensured that cold and hot to follow
During ring, Cooling and Heat Source conducts the intracavitary not ponding of chamber, improves circulation production efficiency and saves energy consumption.
6. mold base workbench, there is the short screw lockhole of fixed-type mold on table top, molding die is tight with short screw
Admittedly can dismount at any time, can need to substitute at any time according to production.
The utility model has the advantage that the utility model base table provides three kinds of heating methods, electromagnetic energy,
Electrical heat energy, the oil pressure unit universal mold base of a kind of quick thermoforming and water-cooled shaping while the production technology used of steam energy
Seat workbench group can replace at present most cold formed equipment of thermoforming and mold that thermal energy is generated using boiler on the market,
Reduce because burning generate air pollution, the investment (boiler and pipeline) of its powering device can also be reduced, and can solve always with
Come, traditional cold/hot shaped equipment cold-hot plate transfer efficiency is too low, and the biradical seat of double molds (single hot radical seat) (Dan Leng used
Pedestal), it mechanically or manually moves moulds and the mechanical action of extra complexity and a large amount of artificial and production process of generation
In the fraction defective for generating the decline of closure pressure force and generating that moves moulds improve, therefore the utility model can be in addition to thermal energy mode
Other than selection, thermoforming is cold formed all to be completed under a Working table structure pedestal, is produced, is further increased at the same pressure
The yield and speed of production of product has screw hole location to can be replaced into pattern tool on mold base work top, and old mould can also add
Aperture position screw is mounted directly, and embedded Cooling and Heat Source pipeline is not required in new die reduces the development cost of new die.
Finally, it should be noted that the above descriptions are merely preferred embodiments of the present invention, it is not limited to this
Utility model, although the utility model is described in detail with reference to the foregoing embodiments, for those skilled in the art
For, it can still modify to foregoing embodiments, documented technical solution, or to part of technical characteristic
It is equivalently replaced, within the spirit and principle of the utility model, any modification, equivalent replacement, improvement and so on,
It should be included within the scope of protection of this utility model.
Claims (8)
1. a kind of cold formed mold base workbench group of electromagnetic energy electrical heat energy steam energy thermoforming, which is characterized in that be divided into up and down
Base table group, top base table assembly are that equipment is fixed top plate (1), top plate screw lockhole (2), upper thermal insulation layer (3), on
Thermal insulation layer screw lockhole (4), upper thermal insulation layer magnetic Electrothermal ring (5), top base working cavity (6), top base working chamber Cooling and Heat Source
Into hole (7), top base working chamber Cooling and Heat Source is portalled (8), top base working chamber screw lockhole (9), top base workbench (10), on
The thermally conductive cooling hinge (11) of base table, top base workbench metal cylinder (12), top base Cooling and Heat Source conduct chamber (13), on
Base table screw lockhole (14), top base long screw (15), the short screw lockhole (16) of top base work top, top base at
Pattern has (17), the short screw of top base mold (18);
Bottom base table assembly is oil pressure movable plate (19), movable plate screw lockhole (20), lower thermal insulation layer (21), lower thermal insulation layer
Screw lockhole (22), lower thermal insulation layer magnetic Electrothermal ring (23), bottom base working cavity (24), bottom base working chamber Cooling and Heat Source into
Hole (25), bottom base working chamber Cooling and Heat Source are portalled (26), bottom base working chamber screw lockhole (27), bottom base workbench (28),
The thermally conductive cooling hinge (29) of bottom base workbench, bottom base workbench metal cylinder (30), bottom base Cooling and Heat Source conduct chamber (31),
Bottom base workbench screw lockhole (32), bottom base long screw (33), the short screw lockhole (34) of bottom base work top, bottom base
Molding die (35), the short screw of bottom base mold (36), the short screw hole location (37) of molding die;
It is formed after upper bottom base molding die closure, mould material forming cavity (38);
Upper thermal insulation layer is nonmagnetic high pressure resistant thermal insulation board;Be no magnetic heat-barrier material or aluminium alloy in top base working cavity, under every
Thermosphere is nonmagnetic high pressure resistant thermal insulation board, and bottom base working cavity is interior for no magnetic heat-barrier material or aluminium alloy.
2. a kind of cold formed mold base workbench group of electromagnetic energy electrical heat energy steam energy thermoforming according to claim 1,
It is characterized in that, top base table assembly is that upper thermal insulation layer (3) are equipped with thermal insulation layer magnetic Electrothermal ring (5) above, and on
Two sides of pedestal working cavity (6) left and right have top base working chamber Cooling and Heat Source to portal (8) into hole (7) top base working chamber Cooling and Heat Source,
And there are the thermally conductive cooling hinge (11) of top base workbench and top base workbench metal in top base workbench (10), the workbench back side
Cylinder (12) passes through top base workbench screw lockhole (14) and top base working chamber screw lockhole with top base long screw (15)
(9) and upper thermal insulation layer screw lockhole (4), through top plate screw lockhole (2) and equipment fixed top plate (1) fastening installation, pedestal work
There is top base Cooling and Heat Source to conduct chamber (13) in platform component, top base workbench has the short screw lockhole (16) of top base work top,
Through the short screw of top base mold (18), the short screw hole location (37) of molding die is passed through, top base molding die (17) can be installed
In base table;
Bottom base table assembly is that lower thermal insulation layer (21) are equipped with lower thermal insulation layer magnetic Electrothermal ring (23) and bottom base above
Two sides of working cavity (24) left and right have bottom base working chamber Cooling and Heat Source to portal (26) into hole (25), bottom base working chamber Cooling and Heat Source,
And there are the thermally conductive cooling hinge (29) of bottom base workbench and bottom base workbench metal in bottom base workbench (28), the workbench back side
Cylinder (30) passes through bottom base workbench screw lockhole (32) and bottom base working chamber screwed lock with bottom base long screw (33)
Hole (27) and lower thermal insulation layer screw lockhole (22) are installed through movable plate screw lockhole (20) and oil pressure movable plate (19) fastening, under
There is bottom base Cooling and Heat Source to conduct chamber (31) in base table component, has the short screw of bottom base work top on bottom base workbench
Lockhole (34) passes through the short screw hole location (37) of molding die through the short screw of bottom base mold (36), can be by bottom base molding die
(35), it is mounted in base table, upper and lower base table component is closed to form mould material forming cavity (38).
3. a kind of cold formed mold base workbench group of electromagnetic energy electrical heat energy steam energy thermoforming according to claim 2,
It is characterized in that, top base table assembly is by with resistance at top base working cavity (6), top base workbench (10) combination
It is fixed top plate (1) that high-temperature seal adhesive is anchored on equipment through top base long screw (15) with upper thermal insulation layer magnetic Electrothermal ring (3) again
On, bottom base table assembly is by bottom base working cavity (24), bottom base workbench (28) combination refractory seals
Glue is anchored on device activity plate (19) with lower thermal insulation layer (21) through bottom base long screw (33) again, and internal structure forms top base
Cooling and Heat Source conducts chamber (13), bottom base Cooling and Heat Source conduction chamber (31), and in top base workbench (10), bottom base workbench (28)
Top base molding die (17), bottom base molding die (35) can be easily installed through molding die short screw hole location (37).
4. a kind of cold formed mold base workbench group of electromagnetic energy electrical heat energy steam energy thermoforming according to claim 3,
It is characterized in that, upper and lower base table group, top base Cooling and Heat Source conduction chamber (13), bottom base Cooling and Heat Source conduct chamber after assembling
(31) the thermally conductive cooling hinge (11) of top base workbench in, thermally conductive cooling hinge (29) structure of bottom base workbench have reinforcement to lead
Heat and cooling and perforation wherein are equipped with top base workbench metal cylinder (12), bottom base workbench metal cylinder (30),
And it fits closely and plays and reinforce mould structure support with top base working cavity (6), bottom base working cavity (24) when assembling
Power and play the role of thermal energy transmitting and cool.
5. a kind of cold formed mold base workbench group of electromagnetic energy electrical heat energy steam energy thermoforming according to claim 4,
It is characterized in that, when being installed as electromagnetic heating coil pipe on upper thermal insulation layer (3), lower thermal insulation layer (21), top base working cavity (6),
Bottom base working cavity (24) is nonmagnetic heat-barrier material cavity, when heating medium frequency electric magnetic wave penetrate top base working cavity (6),
Bottom base working cavity (24) absorbs electromagnetism by top base workbench metal cylinder (12), bottom base workbench metal cylinder (30)
Wave generates heat through the thermally conductive cooling hinge (11) of top base workbench, thermally conductive cooling hinge (29) transferring heat energy of bottom base workbench, and
Upper thermal insulation layer (3), lower thermal insulation layer (21) block electromagnetic energy loss.
6. a kind of cold formed mold base workbench group of electromagnetic energy electrical heat energy steam energy thermoforming according to claim 5,
It is characterized in that, when being installed as electric heating coil pipe on upper thermal insulation layer (3), lower thermal insulation layer (21), top base working cavity (6), lower base
Seat working cavity (24) is aluminium alloy Heat Conduction Material cavity, directly heats top base working cavity (6), bottom base working cavity
(24) through the thermally conductive cooling hinge (11) of top base workbench, the thermally conductive cooling hinge (29) of bottom base workbench to transferring heat energy, and
Upper thermal insulation layer (3), lower thermal insulation layer (21) are that heat-barrier material blocks heat energy loss.
7. a kind of cold formed mold base workbench group of electromagnetic energy electrical heat energy steam energy thermoforming according to claim 6,
It is characterized in that, there are top base work in top base working cavity (6), two sides of bottom base working cavity (24) left and right when being heated with steam
Make that chamber Cooling and Heat Source is portalled (8) into hole (7), top base working chamber Cooling and Heat Source, bottom base working chamber Cooling and Heat Source is into hole (25), bottom base
Working chamber Cooling and Heat Source portal (26) steam disengaging hole location, through the thermally conductive cooling hinge (11) of top base workbench, bottom base workbench
Thermally conductive cooling hinge (29) absorbs thermal energy, while top base working cavity (6), bottom base working cavity (24) can add for aluminium alloy
Strong structure intensity or heat-barrier material block thermal energy all can, and if top base working cavity (6), bottom base working cavity (24) base
Upper thermal insulation layer (3), lower thermal insulation layer (21) can omit installation when seat working cavity is heat-barrier material.
8. a kind of cold formed mold base workbench group of electromagnetic energy electrical heat energy steam energy thermoforming according to claim 7,
It is characterized in that, base table group is to accelerate mold cold cycling efficiency up and down, in top base working cavity (6), bottom base
The two side Inlet and outlet water aperture position top base working chamber Cooling and Heat Source of left and right of working cavity (24) is cold and hot into hole (7), top base working chamber
Source portals (8), bottom base working chamber Cooling and Heat Source into hole (25), bottom base working chamber Cooling and Heat Source portal (26) be designed as it is high into low
Out, guarantee the interior not water of top base Cooling and Heat Source conduction chamber (13), bottom base Cooling and Heat Source conduction chamber (31), and reduce energy-absorbing quality.
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CN201820543407.2U CN208697802U (en) | 2018-04-17 | 2018-04-17 | A kind of cold formed mold base workbench group of electromagnetic energy electrical heat energy steam energy thermoforming |
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CN201820543407.2U CN208697802U (en) | 2018-04-17 | 2018-04-17 | A kind of cold formed mold base workbench group of electromagnetic energy electrical heat energy steam energy thermoforming |
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Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN110385815A (en) * | 2018-04-17 | 2019-10-29 | 张艳琛 | A kind of cold formed mold base workbench group of electromagnetic energy electrical heat energy steam energy thermoforming |
CN111923315A (en) * | 2020-09-11 | 2020-11-13 | 芜湖市卓人汽车配件有限责任公司 | PE foamed mold heat-emitting seat structure |
-
2018
- 2018-04-17 CN CN201820543407.2U patent/CN208697802U/en active Active
Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN110385815A (en) * | 2018-04-17 | 2019-10-29 | 张艳琛 | A kind of cold formed mold base workbench group of electromagnetic energy electrical heat energy steam energy thermoforming |
CN111923315A (en) * | 2020-09-11 | 2020-11-13 | 芜湖市卓人汽车配件有限责任公司 | PE foamed mold heat-emitting seat structure |
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