CN206124035U - Hot plate for vulcanizer - Google Patents
Hot plate for vulcanizer Download PDFInfo
- Publication number
- CN206124035U CN206124035U CN201621082367.3U CN201621082367U CN206124035U CN 206124035 U CN206124035 U CN 206124035U CN 201621082367 U CN201621082367 U CN 201621082367U CN 206124035 U CN206124035 U CN 206124035U
- Authority
- CN
- China
- Prior art keywords
- heat
- heating
- plate
- layer
- conducting
- Prior art date
- Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
- Active
Links
Landscapes
- Heating, Cooling, Or Curing Plastics Or The Like In General (AREA)
Abstract
The utility model relates to a hot plate for vulcanizer, thus one kind in particular to accomplishes the even and high vulcanizer power consumption hot plate that greatly improves its life of compressive property of atress, including zone of heating (1), heat -conducting layer (2), heat -conducting plate (3) and fixed screw (4), heat -conducting layer (2) are established on zone of heating (1) and are fixed through fixed screw (4) and constitute heating device (5) on heat -conducting plate (3), still include monolithic stationary screw (6) and collet layer (7), heating device (5) are fixed on collet layer (7) through monolithic stationary screw (6), it constitutes heating device to establish the heat -conducting layer on the zone of heating and fix through the fixed screw on the heat -conducting plate for pressure is born by the heat -conducting plate earlier in the vulcanizer working process, later since the heat -conducting layer directly the mode printing through the printing layer is on the zone of heating, the pressure that makes whole heat -conducting plate receive will conduct to the collet layer on, can not let zone of heating and heat -conducting layer receive pressure, thus to the hot plate of vulcanizer its atress more evenly just the compressive property height greatly improve its life.
Description
Technical field
This utility model is related to a kind of heating plate, more particularly to a kind of vulcanizer electric boiling plate.
Background technology
Electric boiling plate is, in one piece of substrate, thick film screen printer to be adopted such as on stainless-steel sheet, ceramics, glass or aluminium sheet
Skill, successively prints the insulating protective layers such as dielectric, adding thermal resistance, conductor and glass protection glaze, Jing high temperature sinterings on substrate
Heater element.At present electrical heating printing technology is gradually ripe, with heat conductivility is good, area of dissipation is big and safety
Can be high the characteristics of.
Liquid heating art can be applicable to using the electric boiling plate of above technology.Fast, surface is heated using which easy to clean, outer
The advantages of seeing attractive in appearance, using thick film heater as electric kettle, the production component of water heater, it has also become a new generation's heating product.
The heater element of the type has stable energy-efficient, technical maturity, flexible design, is readily cleaned etc. many excellent
Point, so application scenario is more and more extensive.In practical application, for how arranging electric boiling plate to be a technological difficulties, because
It is relatively easy to damage for electric boiling plate.
Electric boiling plate technique is have also been introduced in vulcanizer device at present, such as Chinese patent CN102497682 discloses one
Plant energy collecting plate.
The targeted problem of its design is that the heating plate bulk of existing vulcanizer is big, the heater block being built in heating plate
Using traditional Resistant heating pipe, power consumption is big.Most important its intrinsic internal structure causes its heat energy transfer mode to be in
The three-dimensional diffusion of surrounding, it is impossible to make energy accumulating efficiently apply and heat to mould in board work surface, therefore exist very big
Defect.
Its defect it is shown it is following some:
1st, the heating power of resistance wire heat-generating pipe heating is big, and power consumption is big, expends the energy, its heat up it is slow, preheating time mistake
Long, resistance wire heat-generating pipe short life brings very big energy consumption in use, while not environmentally friendly enough, also results in
In production process, cost payout remains high.
2nd, heating plate itself heat build-up effect is poor, its non-function face (i.e. non-heating face, the top surface of such as heating plate and heating
The surrounding of plate) effect of heat insulation it is bad, cause heat losses excessive, cause the board temperature of vulcanizer too high, not only make machinery
Part is easily damaged in high temperature environments, and heat energy be dispersed into operation it is indoor can lifting operation indoor temperature, to operator with
Carried out inconvenience, and it is prior be the failure to make heat energy be fully utilized, cause the energy greatly to waste.
3rd, heater effect in terms of heat conduction is barely satisfactory, on work surface, fails to make that heat is maximized to be conducted to
Mould heating on work surface, causes mold temperature to be difficult to reach technological requirement, and practical effect is poor, and thermal energy conduction rate is low
Under.
The concrete technical scheme of its design as shown in figure 1, including support frame, located at the electrode of the support frame bottom
Heating panel assembly, the electrode heating panel assembly are electrical connected with a power connection, and the bottom of the electrode heating panel assembly is also
Connect a heat transfer plate;A heat ray filter is additionally provided between the electrode heating panel assembly and support frame and macromolecule is heat-insulated
Layer, the macromolecule thermal insulation layer are located above the heat ray filter;The area of the area and heat ray filter of the heat transfer plate is and electrode
The floor space of heating panel assembly matches, and the support base framework, heat ray filter, electrode heating panel assembly and heat transfer plate are logical
Cross bolt device to be fixedly connected sequentially together.The vulcanizer of currently available technology is generally divided into vulcanizing press and tyre vulcanization
Machine, now by taking vulcanizing press as an example, the vulcanizing press of currently available technology is as shown in Figure 2, including vulcanizer body, described
Vulcanizer body includes multiple heating plates be arrangeding in parallel;The vulcanizer body side is provided with what is electrically connected with the heating plate
Control chamber;The control chamber is provided with heating start stop switch, automatic temperature-adjusting control instrument and sound-light type sulfuration timing and alarming device.
In the course of the work, the heating plate be arrangeding in parallel can be laminated, and carry out forming operation to rubber cast product, its
In the heating plate that be arranged in parallel need to provide sizable pressure;Electric boiling plate technology is incorporated in vulcanizer technique, its master
The problem for solving is needed to be exactly crushing resistance.
It is in one piece of substrate, such as on stainless-steel sheet, ceramics, glass or aluminium sheet that reason is above-mentioned electric boiling plate
Using thick film screen typography, successively dielectric, adding thermal resistance, conductor and glass protection glaze etc. are printed on substrate and insulated
Protective layer, the heater element of Jing high temperature sinterings, which is that electric boiling plate is relatively easy to damage.
Use in the design of energy collecting plate by connecting heat transfer plate, the electrode heating panel assembly on electrode electro-heat equipment
A heat ray filter and macromolecule thermal insulation layer, and the area of the area and heat ray filter of heat transfer plate are additionally provided between support frame
Match with the floor space of electrode heating panel assembly, such design has a huge defect, in practical work process
It is middle discovery the structure cannot be used in vulcanizer, even if or be used in vulcanizer, its life-span is extremely short, and scrappage is high.
Reason is:In actual production process, as the restriction of material itself causes electrode heating board itself to have necessarily
Angularity, and heat transfer plate itself also has certain angularity, then has and cause whole energy collecting plate by way of plate plate is stacked
When pressure is born, its stress cannot accomplish uniform stressed, then after being heated due to itself, whole energy collecting plate can be deformed upon,
Although its row variable is minimum, the pressure for often locating to be subject on its whole energy collecting plate just occur it is uneven, due to electric boiling plate not
Can there is any damage, once electric boiling plate is subject to crushing, its whole energy collecting plate will be further continued for work, cause directly report
It is useless, need to carry out maintenance replacing.
In view of the foregoing it is apparent that being difficult to resistance to compression as the design of electric boiling plate in vulcanizer is present in currently available technology
Defect cause service life extremely short.
Utility model content
This utility model aims to provide one kind and can accomplish that uniform force and compressive property are high so as to its use is greatly improved
The vulcanizer electric boiling plate in life-span.
To solve above-mentioned technical problem, the technical scheme that this utility model is provided is:A kind of vulcanizer heating plate, including
Zone of heating, heat-conducting layer, heat-conducting plate and fixed screw, the heat-conducting layer are located on zone of heating and are fixed on heat conduction by fixed screw
Heater is constituted on plate, also including overall fixed screw and collet layer, described heater is solid by overall fixed screw
It is scheduled on collet layer.
Used as improvement, the zone of heating is made up of a heating plate, and heating plate is provided with the spiral shell passed through for fixed screw
Hole and multiple hollow structures.
Used as improvement, the zone of heating is made up of multiple heating plates, and each heating plate is provided with least one hollow structure,
The heating plate is provided with the screw passed through for fixed screw.
Used as improvement, the heat-conducting plate or collet layer are provided with projection, the raised height at least equal to heat-conducting plate with
The distance between collet layer.
Used as improvement, described projection is located on heat-conducting plate and is formed in one structure with heat-conducting plate.
Used as improvement, described projection is located on collet layer and is formed in one structure as improvement with collet layer, described
Heat-conducting layer is the printing layer by made by Heat Conduction Material, and described printing layer is directly printed on zone of heating.
Used as improvement, described projection passes through the cross-sectional area of the cross-sectional area and the hollow structure of hollow structure and projection
It is identical.
Used as improvement, the zone of heating is by nanometer palldium alloy.
Used as improvement, the collet layer is slab construction or is formed around flange and is connected with heat-conducting plate.
According to such scheme it can be seen that this utility model has the advantage that:Heat-conducting layer is located on zone of heating and is passed through
Fixed screw is fixed on heat-conducting plate and constitutes heater so that in the vulcanizer course of work, pressure is first born by heat-conducting plate, it
Afterwards as heat-conducting layer is directly printed on zone of heating by way of printing layer, as long as so zone of heating is not bad, even if heat-conducting layer
There is fracture to can continue to use, then as heat-conducting plate or collet layer are provided with projection, the raised height is at least equal to leading
The distance between hot plate and collet layer so that the pressure that whole heat-conducting plate is subject to will be conducted to collet layer, will not allow zone of heating
Pressure is received with heat-conducting layer, even if such structure vulcanizer heating plate receives again high pressure in the range of normal use
Power, does not interfere with the normal use of heating plate yet, while the problem of angularity that zone of heating and heat-conducting layer are present aborning
For being negligible in the use problem of whole heating plate, for the heating plate of vulcanizer its be more uniformly stressed and
Compressive property is significantly high so as to its service life is greatly improved.
Description of the drawings
Structural representations of the Fig. 1 for the energy collecting plate of prior art.
Structural representations of the Fig. 2 for the vulcanizing press of prior art.
Structural representations of the Fig. 3 for the vulcanizer electric boiling plate of this utility model embodiment one.
Partial enlarged drawings of the Fig. 4 for the heater 4 of the vulcanizer electric boiling plate of this utility model embodiment one.
Structural representations of the Fig. 5 for the zone of heating of the vulcanizer electric boiling plate of this utility model embodiment one.
Structural representations of the Fig. 6 for the zone of heating of the vulcanizer electric boiling plate of this utility model embodiment two.
Structural representations of the Fig. 7 for the vulcanizer electric boiling plate collet layer of this utility model embodiment two.
Structural representations of the Fig. 8 for the vulcanizer electric boiling plate of this utility model embodiment two
Partial enlarged drawings of the Fig. 9 for the heater 4 of the vulcanizer electric boiling plate of this utility model embodiment two.
Structural representations of the Figure 10 for the zone of heating of the vulcanizer electric boiling plate of this utility model embodiment three.
Description of the drawings:1st, zone of heating, 2, heat-conducting layer, 3, heat-conducting plate, 4, fixed screw, 5, heater, 6, overall fixed
Screw, 7, collet layer, 8, heating plate, 8.1, hollow structure, 8.2, screw, 9, raised.
Specific embodiment
Below in conjunction with the accompanying drawings this utility model is described in further detail.
Embodiment one:As illustrated, a kind of vulcanizer heating plate, including zone of heating 1, heat-conducting layer 2, heat-conducting plate 3 and solid
Determine screw 4, the heat-conducting layer 2 is located on zone of heating 1 and composition heater 5 on heat-conducting plate 3 is fixed on by fixed screw 4,
Also include overall fixed screw 6 and collet layer 7, described heater 5 is fixed on collet layer 7 by overall fixed screw 6;
The zone of heating 1 is made up of a heating plate 8, heating plate 8 be provided with the screw 8.2 that passes through for fixed screw 4 and it is multiple in
Hollow structure 8.1;The heat-conducting plate 3 is provided with raised 9 and is formed in one structure with heat-conducting plate 3, and raised 9 height is at least
Equal to the distance between heat-conducting plate 3 and collet layer 7;The heat-conducting layer 2 is the printing layer by made by Heat Conduction Material, described printing
Layer is directly printed on zone of heating 1;Described projection 9 passes through hollow structure 8.1 and raised 9 cross-sectional area and hollow structure
8.1 cross-sectional area is identical;The collet layer 7 is formed around flange and is connected with heat-conducting plate 3;The zone of heating 1 is by Technique of Nano Pd
Alloy is made.
Embodiment two:As illustrated, a kind of vulcanizer heating plate, including zone of heating 1, heat-conducting layer 2, heat-conducting plate 3 and solid
Determine screw 4, the heat-conducting layer 2 is located on zone of heating 1 and composition heater 5 on heat-conducting plate 3 is fixed on by fixed screw 4,
Also include overall fixed screw 6 and collet layer 7, described heater 5 is fixed on collet layer 7 by overall fixed screw 6;
The zone of heating 1 is made up of multiple heating plates 8, and each heating plate 8 is provided with least one hollow structure 8.1, the heating plate 8
It is provided with the screw 8.2 passed through for fixed screw 4;The heat-conducting plate 3 is provided with raised 9 and is formed in one with heat-conducting plate 3
Structure, raised 9 height is at least equal to the distance between heat-conducting plate 3 and collet layer 7;The heat-conducting layer 2 is by heat conduction material
Printing layer made by material, described printing layer are directly printed on zone of heating 1;Described projection 9 is through hollow structure 8.1 and convex
Rise 9 cross-sectional area it is identical with the cross-sectional area of the hollow structure 8.1;The collet layer 7 be formed around flange and with heat-conducting plate 3
It is connected;The zone of heating 1 is made up of nanometer palldium alloy.
Embodiment three:As shown in Fig. 4,6,7 and 10, a kind of vulcanizer heating plate, including zone of heating 1, heat-conducting layer 2, lead
Hot plate 3 and fixed screw 4, the heat-conducting layer 2 are located on zone of heating 1 and are fixed on to constitute on heat-conducting plate 3 by fixed screw 4 and add
Thermal 5, also including overall fixed screw 6 and collet layer 7, described heater 5 is fixed on bottom by overall fixed screw 6
On support layer 7;The zone of heating 1 is made up of multiple heating plates 8, and each heating plate 8 is provided with least one hollow structure 8.1, institute
State heating plate 8 and be provided with the screw 8.2 passed through for fixed screw 4;The collet layer 7 is provided with raised 9 and with collet layer 7 is
Integrated formed structure, raised 9 height is at least equal to the distance between heat-conducting plate 3 and collet layer 7;The heat-conducting layer 2 is
The printing layer being made from a material that be thermally conductive, described printing layer are directly printed on zone of heating 1;Described projection 9 passes through hollow knot
The cross-sectional area of structure 8.1 and projection 9 is identical with the cross-sectional area of the hollow structure 8.1;The zone of heating 1 is by nanometer palldium alloy;
The collet layer 7 is slab construction and is connected with heat-conducting plate 3.
Above this utility model and embodiments thereof are described, the description does not have restricted, shown in accompanying drawing
Also it is one of embodiment of the present utility model, actual structure is not limited thereto.If generally speaking this area is general
Logical technical staff is enlightened by which, in the case where objective is created without departing from this utility model, is designed and this without creative
The similar frame mode of technical scheme and embodiment, all should belong to protection domain of the present utility model.
Claims (10)
1. a kind of vulcanizer heating plate, including zone of heating (1), heat-conducting layer (2), heat-conducting plate (3) and fixed screw (4), it is described
Heat-conducting layer (2) is located on zone of heating (1) and is fixed on heat-conducting plate (3) by fixed screw (4) and constitutes heater (5), also
Including overall fixed screw (6) and collet layer (7), described heater (5) is fixed on collet by overall fixed screw (6)
On layer (7).
2. vulcanizer heating plate as claimed in claim 1, it is characterised in that:The zone of heating (1) is by a heating plate (8)
Constitute, heating plate (8) is provided with the screw (8.2) and multiple hollow structures (8.1) passed through for fixed screw (4).
3. vulcanizer heating plate as claimed in claim 1, it is characterised in that:The zone of heating (1) is by multiple heating plates (8)
Constitute, each heating plate (8) is provided with least one hollow structure (8.1), and the heating plate (8) is provided with for fixed screw
(4) screw (8.2) for passing through.
4. vulcanizer heating plate as claimed in claim 1, it is characterised in that:Set on the heat-conducting plate (3) or collet layer (7)
Have raised (9), the height of the projection (9) is at least equal to the distance between heat-conducting plate (3) and collet layer (7).
5. vulcanizer heating plate as claimed in claim 4, it is characterised in that:Described projection (9) is located on heat-conducting plate (3)
And be formed in one structure with heat-conducting plate (3).
6. vulcanizer heating plate as claimed in claim 4, it is characterised in that:Described projection (9) is located on collet layer (7)
And be formed in one structure with collet layer (7).
7. vulcanizer heating plate as claimed in claim 1, it is characterised in that:The heat-conducting layer (2) is by Heat Conduction Material system
Into printing layer, described printing layer is directly printed on zone of heating (1).
8. vulcanizer heating plate as claimed in claim 2 or claim 3, it is characterised in that:The heat-conducting plate (3) or collet layer (7)
It is provided with raised (9), the height of the projection (9) is at least equal to the distance between heat-conducting plate (3) and collet layer (7), described
Raised (9) through hollow structure (8.1) and raised (9) cross-sectional area it is identical with the cross-sectional area of the hollow structure (8.1).
9. vulcanizer heating plate as claimed in claim 1, it is characterised in that:The zone of heating (1) is by nanometer palldium alloy.
10. vulcanizer heating plate as claimed in claim 1, it is characterised in that:The collet layer (7) is slab construction or four
It is provided with flange week and is connected with heat-conducting plate (3).
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201621082367.3U CN206124035U (en) | 2016-09-26 | 2016-09-26 | Hot plate for vulcanizer |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201621082367.3U CN206124035U (en) | 2016-09-26 | 2016-09-26 | Hot plate for vulcanizer |
Publications (1)
Publication Number | Publication Date |
---|---|
CN206124035U true CN206124035U (en) | 2017-04-26 |
Family
ID=58570941
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
CN201621082367.3U Active CN206124035U (en) | 2016-09-26 | 2016-09-26 | Hot plate for vulcanizer |
Country Status (1)
Country | Link |
---|---|
CN (1) | CN206124035U (en) |
Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN106273120A (en) * | 2016-09-26 | 2017-01-04 | 无锡拓利普科技有限公司 | Vulcanizer heating plate |
CN107914461A (en) * | 2017-12-24 | 2018-04-17 | 苏州派菲特自动化科技有限公司 | Easy clothes transfer heating plate |
-
2016
- 2016-09-26 CN CN201621082367.3U patent/CN206124035U/en active Active
Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN106273120A (en) * | 2016-09-26 | 2017-01-04 | 无锡拓利普科技有限公司 | Vulcanizer heating plate |
CN107914461A (en) * | 2017-12-24 | 2018-04-17 | 苏州派菲特自动化科技有限公司 | Easy clothes transfer heating plate |
Similar Documents
Publication | Publication Date | Title |
---|---|---|
CN107396464A (en) | A kind of curing molding equipment of PTC heater part | |
CN206124035U (en) | Hot plate for vulcanizer | |
CN207930947U (en) | A kind of electric boiling plate | |
CN106273120A (en) | Vulcanizer heating plate | |
CN202406318U (en) | Energy accumulating plate | |
CN202085323U (en) | Energy-saving heating device | |
CN209056561U (en) | A kind of battery core hot-press arrangement | |
CN217607995U (en) | Low-temperature heat treatment device for graphene oxide heat-conducting film | |
CN204018171U (en) | For the crucible heating plate of crucible spraying | |
CN206106179U (en) | Vulcanizer power consumption hot plate | |
CN203675344U (en) | Infrared carbon crystal electronic heating plate | |
CN104760314A (en) | Thermoforming device | |
CN201766733U (en) | Electromagnetic induction heating coil | |
CN205176427U (en) | This pressure equipment of PCBACF is put | |
CN203010736U (en) | Novel heater | |
CN204350335U (en) | A kind of Electrothermal ring | |
CN204535346U (en) | Pressure-filteration drying mould | |
CN212045564U (en) | Heat preservation plate vulcanizing machine | |
CN102573145A (en) | Novel electric heating device | |
CN206894913U (en) | A kind of circuit display device of the curing molding equipment of PTC heater part | |
CN102529282A (en) | Heating plate for photovoltaic assembly lamination and packaging and laminating machine with same | |
CN109273800A (en) | A kind of new energy car battery heating device | |
CN104602373A (en) | Electric heating ring | |
CN208562591U (en) | Monocrystalline silicon heater | |
CN103331895A (en) | Energy-saving device of plastic machine |
Legal Events
Date | Code | Title | Description |
---|---|---|---|
GR01 | Patent grant | ||
GR01 | Patent grant |