CN202392358U - Heat insulating and electricity-saving device - Google Patents
Heat insulating and electricity-saving device Download PDFInfo
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- CN202392358U CN202392358U CN2011204689513U CN201120468951U CN202392358U CN 202392358 U CN202392358 U CN 202392358U CN 2011204689513 U CN2011204689513 U CN 2011204689513U CN 201120468951 U CN201120468951 U CN 201120468951U CN 202392358 U CN202392358 U CN 202392358U
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Abstract
The utility model relates to a heat insulating and electricity-saving device, for wrapping a heat radiating component; the heat insulating and electricity-saving device comprises a main heat insulating and electricity-saving device; the main heat insulating and electricity-saving device comprises a case, a heat reflecting layer, an energy storage layer and a heat insulation module; the heat insulation module wraps the heat radiating component; interior of the heat insulation module is hollow; the energy storage layer is located in the hollow; the heat insulation module is orderly provided with the heat reflecting layer and the case outwards. The heat insulating and electricity-saving device provided by the utility model is characterized by simple structure and good heat insulating effect and is capable of saving power, so that the heat insulating and electricity-saving device is suitable for heat insulation of the heat radiating component such as an injection molding machine, a blow molding machine, an extruder and a baking device.
Description
Technical field
The utility model relates to a kind of heat-retaining electricity-saving device, particularly a kind of heat-retaining electricity-saving device that is applied to injection machine, blow-moulding machine, extruder, roasting plant.
Background technique
Be provided with heat-dissipating part in injection machine, blow-moulding machine, extruder and the roasting plant, said here heat-dissipating part refers to this part interior and has higher temperature, and because of these parts do not have heat insulation function, heat is dispersed in the surrounding environment through these parts.The barrel of injection machine for example; In process of production, inner melten gel temperature need be set in more than 200 ℃, so the temperature difference of the inside of barrel and environment is big; Most of heat directly is dispersed in the environment because ambient temperature is relatively low; Heating wire needs constantly energising heating or frequent energising heating to satisfy the temperature requirement of setting, and heat distributes and is easy to generate temperature fluctuation soon simultaneously, influences the quality of product easily.
Generally speaking, existing do not have following shortcoming with the structure of heat-retaining electricity-saving device: 1. power consumption is big, wastes energy.2. temperature fluctuation influences quality of product.3. heat is dispersed into surrounding environment, and the workshop temperature is high, and severe operational environment, long-term hot environment are prone to cause the aging of electric appliance circuits etc.
The model utility content
To the technical problem that exists in the existing technology; The purpose of the utility model is: provide a kind of simple in structure, only need be installed at can realize on the existing equipment to the heat that heat-dissipating part distributes reclaim, the heat-retaining electricity-saving device at storage and reflected back demand center.
In order to achieve the above object, the utility model adopts following technological scheme:
A kind of heat-retaining electricity-saving device is wrapped in outside the heat-dissipating part; This heat-retaining electricity-saving device comprises main heat-retaining electricity-saving device; Said main heat-retaining electricity-saving device comprises: casing, heat-reflecting layer, accumulation of energy layer and heat insulation module; Heat insulation module is wrapped in outside the heat-dissipating part, the boring of heat insulation module, and the accumulation of energy layer is positioned at this hollow position; Heat insulation module outwards is provided with heat-reflecting layer and casing successively.
Casing is stainless steel casing, epoxy resin board casing, nylon casing or cabinet.
Heat-reflecting layer is nano-paint layer or macromolecule heat reflection skin of paint.
The accumulation of energy layer is asbestos insulation blanket layer, composite heat-insulated material layer, nanometer material which can retain moisture layer or membrane plating heat-reflection material layer, or the mixing layer that is spliced and combined by the two or more materials in asbestos insulation blanket, composite heat-insulated material, nanometer material which can retain moisture and the membrane plating heat-reflection material.
Heat insulation module for process by high-temperature plastic material or high temperature resistant cloth, leave the heat insulation module that holds the heat-dissipating part cavity volume in it.
Heat insulation module is cube shaped, the cylinder bodily form or tubulose.The cavity volume that holds heat-dissipating part is left in its inside, and the cavity volume shape is corresponding with the heat-dissipating part shape; Also can be provided with the opening that supplies heat-dissipating part to pass.
The heat radiation window that casing is provided with is more than one, can open or close.
The heat radiation window is articulated on the casing; The heat radiation window is embarked on journey and is arranged on the casing.
Casing is cube shaped, the cylinder bodily form or tubulose; On two relative exterior edge faces of casing, be provided with the protection apron that aluminium, stainless steel or engineering plastics are made.
The heat-retaining electricity-saving device also comprises the auxilliary heat-retaining electricity-saving device identical with main heat-retaining electricity-saving apparatus structure.
After adopting this technological scheme, heat insulation module is wrapped in outside the heat-dissipating part, and heat is reclaimed, and simultaneously, heat insulation module inner hollow is held the accumulation of energy layer, and the accumulation of energy layer is well protected.The accumulation of energy layer stores the heat that reclaims, and prevents that secondary from distributing.After thermmal storage reaches capacity, reflect heat is gone back to the demand center through heat-reflecting layer.Casing is protected main heat-retaining electricity-saving device, also can be used as the parts that heat-reflecting layer adheres to simultaneously.Therefore, this heat-retaining electricity-saving device has effectively utilized and has given out the outer heat of heat-dissipating part.
Generally speaking, the utlity model has following advantage:
1. because heat is reused, and heating element does not need to keep heated condition always, save the energy.
2. the heat-retaining electricity-saving device makes the temperature in the heat-dissipating part keep a metastable scope, can not fluctuate good product quality.
3. heat can not be dispersed into surrounding environment, helps keeping environmental amenity, avoids indoor product to wear out because of being in high temperature for a long time.
4. only need simply be installed on the existing parts, need not change existing parts, more need not change existing heating system.
5. the setting of heat radiation window can open and close flexibly, can reduce the temperature of local location during unlatching.After the heat radiation window was set, the place of opening the heat radiation window formed topical hypothermia, and the place of closing the heat radiation window or the heat radiation window not being set forms localized hyperthermia.
6. protection apron can avoid the heat-retaining electricity-saving device in assembling and dissembling process, to be broken.
7. receive the heat-dissipating part shape limits, when a main heat-retaining electricity-saving device can not wrap up heat-dissipating part fully, can set up auxilliary heat-retaining electricity-saving device parcel heat-dissipating part.
8. simple in structure, high insulating effect.
Description of drawings
Fig. 1 is the stereogram of heat-retaining electricity-saving device that is applied to the barrel of injection machine.
Fig. 2 is the sectional view of main heat-retaining electricity-saving device among Fig. 1.
Fig. 3 is the stereogram of auxilliary heat-retaining electricity-saving device among Fig. 1.
Fig. 4 is the partial enlarged drawing of Fig. 2.
Wherein, 1 is main heat-retaining electricity-saving device, and 2 is auxilliary heat-retaining electricity-saving device, and 3 is barrel, and 4 is hopper, and 11 is casing, and 12 is heat-reflecting layer, and 13 are the accumulation of energy layer, and 14 is heat insulation module, and 15 is protection apron, and 16 are the heat radiation window.
Embodiment
To combine accompanying drawing and embodiment to come the utility model is done further detailed explanation below.
Shown in Figure 1, the hopper 4 and the barrel 3 of injection machine join, and material is heated to form molten state in barrel 3.Barrel 3 outside suit heat-retaining electricity-saving devices.Barrel 3 is heat-dissipating part.
The heat-retaining electricity-saving device comprises: main heat-retaining electricity-saving device 1 and auxilliary heat-retaining electricity-saving device 2.
Fig. 2 and shown in Figure 4, main heat-retaining electricity-saving device 1 comprises: casing 11, heat-reflecting layer 12, accumulation of energy layer 13, heat insulation module 14, protection apron 15 and heat radiation window 16.Wherein, heat insulation module 14 whole one-tenth tubular casings are outside barrel 3, and tube wall hollow is used to hold accumulation of energy layer 13.Heat insulation module 14 peripheries are the casing 11 of heat-reflecting layer 12 and tubulose successively.Be equipped with protection apron on the both ends of the surface of casing 11.The upper position of casing 11 is provided with two the heat radiation windows 16 that can open or close, and heat radiation window 16 is articulated on the casing 11.
Casing 11 can be selected stainless steel casing, epoxy resin board casing, nylon casing or cabinet for use.Heat-reflecting layer 12 can be nano-paint layer or macromolecule heat reflection skin of paint, can adopt the mode of spraying or brushing to be attached to heat insulation module 14 outer walls or casing 11 inwalls; When being attached to heat insulation module 14 outer walls, open the heat radiation window, the heat-reflecting layer at this position can not be opened with the heat radiation window, and the thermolysis of the window that therefore dispels the heat is not very strong.Accumulation of energy layer 13 can be asbestos insulation blanket layer, composite heat-insulated material layer, nanometer material which can retain moisture layer or membrane plating heat-reflection material layer, or the mixing layer that is spliced and combined by the two or more materials in asbestos insulation blanket, composite heat-insulated material, nanometer material which can retain moisture and the membrane plating heat-reflection material.Heat insulation module is for to be processed by high-temperature plastic material or high temperature resistant cloth.
For main heat-retaining electricity-saving device 1 is installed on outside the barrel 3; Main heat-retaining electricity-saving device 1 is arranged to two halves up and down; Be seen as meniscate two halves from cross section, two part splicing bonding, clampings or fixing through being threaded in back can be set in main heat-retaining electricity-saving device 1 outside the barrel 3.Installation for the ease of main heat-retaining electricity-saving device 1; Main heat-retaining electricity-saving device can be divided into several sections; The choosing of fractionation face is similar to choosing of mold joint in the plastic mould; As long as splice and combine after realizing being enclosed within several sections outside the heat-dissipating part, the most of heating surface that can cover heat-dissipating part gets final product.
The structure of auxilliary heat-retaining electricity-saving device 2 shown in Figure 3 is identical with main heat-retaining electricity-saving device 1, and difference is: auxilliary heat-retaining electricity-saving device length is shorter, and does not have the heat radiation of setting window.In order to guarantee heat insulation effect, main heat-retaining electricity-saving device and auxilliary heat-retaining electricity-saving device are as close as possible, make that the surface of contact of barrel and external environment condition is as far as possible little, promptly reduce heat transfer area as far as possible.
Except the mode that present embodiment is mentioned, according to the shape of different radiating parts, the heat-retaining electricity-saving device can have different shape, also can select whether to use auxilliary heat-retaining electricity-saving device as required.These mapping modes are all in the protection domain of the utility model.
Claims (10)
1. a heat-retaining electricity-saving device is wrapped in outside the heat-dissipating part, it is characterized in that: this heat-retaining electricity-saving device comprises main heat-retaining electricity-saving device; Said main heat-retaining electricity-saving device comprises: casing, heat-reflecting layer, accumulation of energy layer and heat insulation module; Heat insulation module is wrapped in outside the heat-dissipating part, the boring of heat insulation module, and the accumulation of energy layer is positioned at this hollow position; Heat insulation module outwards is provided with heat-reflecting layer and casing successively.
2. according to the described a kind of heat-retaining electricity-saving device of claim 1, it is characterized in that: said casing is stainless steel casing, epoxy resin board casing, nylon casing or cabinet.
3. according to the described a kind of heat-retaining electricity-saving device of claim 1, it is characterized in that: said heat-reflecting layer is nano-paint layer or macromolecule heat reflection skin of paint.
4. according to the described a kind of heat-retaining electricity-saving device of claim 1; It is characterized in that: said accumulation of energy layer is asbestos insulation blanket layer, composite heat-insulated material layer, nanometer material which can retain moisture layer or membrane plating heat-reflection material layer, or the mixing layer that is spliced and combined by the two or more materials in asbestos insulation blanket, composite heat-insulated material, nanometer material which can retain moisture and the membrane plating heat-reflection material.
5. according to the described a kind of heat-retaining electricity-saving device of claim 1, it is characterized in that: said heat insulation module for process by high-temperature plastic material or high temperature resistant cloth, leave the heat insulation module that holds the heat-dissipating part cavity volume in it.
6. according to the described a kind of heat-retaining electricity-saving device of claim 5, it is characterized in that: said heat insulation module is cube shaped, the cylinder bodily form or tubulose.
7. according to the described a kind of heat-retaining electricity-saving device of claim 1, it is characterized in that: said casing is provided with heat radiation window more than one, that can open or close.
8. according to the described a kind of heat-retaining electricity-saving device of claim 7, it is characterized in that: said heat radiation window is articulated on the casing; The heat radiation window is embarked on journey and is arranged on the casing.
9. according to each described a kind of heat-retaining electricity-saving device in the claim 1 to 8, it is characterized in that: said casing is cube shaped, the cylinder bodily form or tubulose; On two relative exterior edge faces of casing, be provided with the protection apron that aluminium, stainless steel or engineering plastics are made.
10. according to the described a kind of heat-retaining electricity-saving device of claim 9, it is characterized in that: it also comprises the auxilliary heat-retaining electricity-saving device identical with main heat-retaining electricity-saving apparatus structure.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN2011204689513U CN202392358U (en) | 2011-11-23 | 2011-11-23 | Heat insulating and electricity-saving device |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
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CN2011204689513U CN202392358U (en) | 2011-11-23 | 2011-11-23 | Heat insulating and electricity-saving device |
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CN202392358U true CN202392358U (en) | 2012-08-22 |
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CN2011204689513U Expired - Fee Related CN202392358U (en) | 2011-11-23 | 2011-11-23 | Heat insulating and electricity-saving device |
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Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN105567041A (en) * | 2016-01-23 | 2016-05-11 | 中山顺富节能科技有限公司 | High-quality heat-preservation and electricity-saving device |
-
2011
- 2011-11-23 CN CN2011204689513U patent/CN202392358U/en not_active Expired - Fee Related
Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN105567041A (en) * | 2016-01-23 | 2016-05-11 | 中山顺富节能科技有限公司 | High-quality heat-preservation and electricity-saving device |
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Legal Events
Date | Code | Title | Description |
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C14 | Grant of patent or utility model | ||
GR01 | Patent grant | ||
C17 | Cessation of patent right | ||
CF01 | Termination of patent right due to non-payment of annual fee |
Granted publication date: 20120822 Termination date: 20121123 |