CN202547343U - Roller using heat conducting medium for indirect heat conduction - Google Patents
Roller using heat conducting medium for indirect heat conduction Download PDFInfo
- Publication number
- CN202547343U CN202547343U CN2012200109104U CN201220010910U CN202547343U CN 202547343 U CN202547343 U CN 202547343U CN 2012200109104 U CN2012200109104 U CN 2012200109104U CN 201220010910 U CN201220010910 U CN 201220010910U CN 202547343 U CN202547343 U CN 202547343U
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- Prior art keywords
- heat
- conducting medium
- cylinder
- heat exchanger
- kerosene
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Abstract
The utility model relates to a roller using a heat conducting medium for indirect heat conduction. The roller comprises an air core heat exchanger 4 which is arranged in an outer roller 1 and provided with an integrated sealing structure; a heat conducting medium 3 is arranged between the outer roller 1 and the air core heat exchanger 4; and the air core heat exchanger 4 comprises a plurality of independent cavities and heating medium oil balanced distribution guide tubes, so that the balance of temperature of the left and right sides of the air core heat exchanger 4 is guaranteed. According to the roller using the heat conducting medium for indirect heat conduction, the heat energy transfer inside the roller is carried out by using the heat conducting medium, and the heat conducting space is of a developed design, so that the problem of sealing during high-speed rotation is solved, meanwhile, the problem of pressure caused at high temperature when a liquid heat conducting medium is used is solved, and then, the work efficiency of heating is greatly increased; and the heat exchanger is heated by using heating medium oil, so that the high-power electric energy consumption is avoided, and the effects of environment friendliness and energy saving are achieved.
Description
Technical field:
The utility model belongs to field of textile machinery, relates to a kind of boiling hot light, oven dry of textile fabric, and particularly relevant with textile fabric surface treatment cylinder is especially relevant with the cylinder that utilizes the indirect heat conduction of heat-conducting medium.
Background technology:
In the yarn fabric process of manufacture, because the particularity of industry, the surface treatment of fabric or the oven dry link that is absolutely necessary; Along with the development of industry, fabric feeling is even more important, and fabric drying, the surface-treated working method of dyeing and finishing industry are at present: in metal roller, be provided with electrothermal tube and rotation carbon brush holder; Feed electric energy and come heated roller, during work, the one or more cylinder rotations of driven by motor; Fabric fully contacts with cylinder and reaches the purpose of scalding the light fabric face or removing fabric moisture content, consumes a large amount of heat energy in the process, and the thermal efficiency of electricity is very low; Waste energy; And the electric energy installed capacity is very big, and scalding the single installed capacity of bare-barrel drum generally needs more than the 55kw, and uses steam and the very difficult solution that sealing problem will become when rotating at a high speed of other thermal source.
The utility model content:
For solving the problems of the technologies described above; The purpose of the utility model is to provide a kind of cylinder of the novel indirect heat conduction of use heat-conducting medium, and heat-conducting medium can use liquid state or powdery medium, and its drum is used the design for the exploitation formula of heat-conducting medium transferring heat energy, heat conduction space; Avoided sealing problem; Avoid pressure and the problem of oxidation of using heat-conducting medium when high temperature, to produce simultaneously, improved the operating efficiency of heating greatly, also reached the effect of environmental protection and energy saving.
For reaching above-mentioned purpose, the utility model adopts following technical scheme:
The indirect heat conduction cylinder of heat-conducting medium; Comprise and be arranged on outer cylinder 1; The hollow heat exchanger 4 that is provided with the one closed structure in the outer cylinder 1; Be provided with heat-conducting medium 3 between cylinder 1 and the hollow heat exchanger 4 outside, described hollow heat exchanger 4 comprises that a plurality of independently cavitys and the balanced distribution ducts of heat kerosene have guaranteed hollow heat exchanger 4 left and right sides temperature equalizations.
Described hollow heat exchanger 4 comprises: balanced distribution ducts 4-7 on balanced distribution ducts 4-6 and the heat kerosene under inner cylinder 4-1, exterior circular column 4-2, partition circle 4-3, a heat kerosene inlet axle 4-4, a heat kerosene outlet 4-5, the heat kerosene; Heat kerosene up flow to balanced distribution ducts 4-7 by balanced distribution ducts 4-6 under the inlet axle 4-4 warp through the cavity that is separated out by partition circle 4-3; Flowed out by heat kerosene outlet axle 4-5, heat-conducting medium can flow into and store wherein when described hollow heat exchanger 4 inner cylinder 4-1 inside guaranteed that for cavity outer cylinder stops the rotation again.
Described cylinder is provided with heat-conducting medium and replenishes and air gateway 18.
Described cylinder is provided with anti-side leakage helicla flute 19, and anti-side leakage helicla flute 19 prevents that liquid medium 3 from going out from the axle effluent when having left and right sides helical structure to guarantee cylinder 1 rotation outside.
Adopt technique scheme; The utility model is because its drum uses heat-conducting medium transferring heat energy, heat conduction space for developing the design of formula, and the sealing problem when having avoided rotating has at a high speed been avoided the stress problems of using liquid thermal conductivity media when high temperature, to produce simultaneously; Improved the operating efficiency of heating greatly; Heat exchanger uses the heat kerosene heating, has avoided using high-power electric energy, has reached the effect of environmental protection and energy saving.
Description of drawings:
Below with accompanying drawing the utility model is specified:
Fig. 1 is the utility model cylinder complete machine structure sketch map;
Fig. 2 is the utility model cylinder complete machine structure figure 1A-A generalized section;
Fig. 3 is the utility model hollow heat converter structure sketch map;
Fig. 4 is the E-E generalized section of the utility model hollow heat exchanger Fig. 3;
Fig. 5 is the utility model heat kerosene loop sketch map.
The specific embodiment:
Below in conjunction with accompanying drawing and embodiment the utility model is detailed:
Fig. 1-shown in Figure 5 is the embodiment of the utility model, and heat-conducting medium heat conduction cylinder comprises outer cylinder 1, bearing block 2; Be arranged on the heat-conducting medium 3 in outer cylinder and the interchanger, be arranged on the hollow heat exchanger 4 of the one closed structure in the outer cylinder, hollow heat exchanger fixing rack 5, temperature sensor 6, carbon brush holder 7; Frame 8, heat kerosene inlet 9, heat kerosene outlet 10, temperature controller 11; Three-way control valve 12, hand-operated valve 13, heat kerosene inlet tube 14, heat kerosene outlet 15; Belt pulley 16, heat kerosene 17, heat-conducting medium replenishes mouth and air gateway 18, anti-side leakage helicla flute 19.
Described outer cylinder 1, outer surface contacts with fabric, and inner face contacts with liquid medium 3.Described heat-conducting medium 3 contacts with hollow heat exchanger 4.
Described hollow heat exchanger 4 by inner cylinder 4-1, exterior circular column 4-2, cut off under circle 4-3, a heat kerosene inlet axle 4-4, a heat kerosene outlet axle 4-5, the heat kerosene on the balanced distribution ducts 4-6 and heat kerosene balanced distribution ducts 4-7 etc. and form; Heat kerosene up flow to balanced distribution ducts 4-7 by balanced distribution ducts 4-6 under the inlet axle 4-4 warp through the cavity that is separated out by partition circle 4-3, again by a heat kerosene outlet 4-5 outflow.The weight that heat kerosene flows through interchanger can be reduced in the space that the inner ring of described hollow heat exchanger inner cylinder 4-1 is reserved, and liquid heat-conducting medium can stay into being stored in wherein when shutting down simultaneously.
Described hollow heat exchanger 4 connects with heat kerosene inlet 9, heat kerosene outlet 10.
Described hollow heat exchanger 4 is connected with hollow heat exchanger fixing rack 5.Described hollow heat exchanger fixing rack 5 is connected with frame 8.Described heat kerosene inlet 9, heat kerosene outlet 10 and heat kerosene inlet tube 14, heat kerosene outlet 15 connects.Described heat kerosene inlet tube 14 is connected with three-way control valve 12.Described three-way control valve 12 is opened and closed by temperature controller 11 controls.Described temperature controller 11 is connected with carbon brush holder 7.Described carbon brush holder 7 is connected with temperature sensor 6.
Described heat-conducting medium replenishes mouth and air gateway 18 can replenish heat-conducting medium and release gas.Described anti-side leakage helicla flute 19 has left and right sides helical structure, during cylinder 1 rotation outside, prevents that liquid medium 3 from going out from the axle effluent.
During the utility model work, will need fabric to be wrapped in the outer cylinder 1, the quantitative heat-conducting medium 3 of packing into; Motor is through belt pulley 16; Outer cylinder 1 rotation, liquid medium 3 will all wrap the interior circle of hollow heat exchanger 4 and outer cylinder 1, and heat kerosene 17 flows into hollow heat exchanger 4 through three-way control valve 12; The heat energy of heat kerosene 17 is delivered to outer cylinder 1 through hollow heat exchanger 4 and liquid medium 3, and last thermal energy transfer is given fabric.
The utility model is because its drum uses heat-conducting medium transferring heat energy, heat conduction space for developing the design of formula; Sealing problem when having avoided rotating at a high speed; Avoided the stress problems of using liquid thermal conductivity media when high temperature, to produce simultaneously, improved the operating efficiency of heating greatly, heat exchanger uses the heat kerosene heating; Avoided using high-power electric energy, reached the effect of environmental protection and energy saving.
Claims (4)
1. the indirect heat conduction cylinder of heat-conducting medium; It is characterized in that: comprise being arranged on outer cylinder (1); The hollow heat exchanger (4) that is provided with the one closed structure in the outer cylinder (1); Be provided with heat-conducting medium (3) between cylinder (1) and the hollow heat exchanger (4) outside, described hollow heat exchanger (4) comprises that a plurality of independently cavitys and the balanced distribution ducts of heat kerosene have guaranteed hollow heat exchanger (4) left and right sides temperature equalization.
2. the indirect heat conduction cylinder of heat-conducting medium as claimed in claim 1 is characterized in that: described hollow heat exchanger (4) comprising: balanced distribution ducts (4-7) on balanced distribution ducts (4-6) and the heat kerosene under inner cylinder (4-1), exterior circular column (4-2), partition circle (4-3), heat kerosene inlet axle (4-4), heat kerosene outlet spool (4-5), the heat kerosene; Heat kerosene up flow to balanced distribution ducts (4-7) by balanced distribution ducts (4-6) under inlet axle (4-4) warp through the cavity that is separated out by partition circle (4-3); Flowed out by heat kerosene outlet axle (4-5), heat-conducting medium can flow into and store wherein when described hollow heat exchanger (4) inner cylinder (4-1) inside guaranteed that for cavity outer cylinder stops the rotation again.
3. according to claim 1 or claim 2 the indirect heat conduction cylinder of heat-conducting medium, it is characterized in that: described cylinder is provided with heat-conducting medium and replenishes and air gateway (18).
4. according to claim 1 or claim 2 the indirect heat conduction cylinder of heat-conducting medium; It is characterized in that: described cylinder is provided with anti-side leakage helicla flute (19), and anti-side leakage helicla flute (19) prevents that liquid medium (3) from going out from the axle effluent when having left and right sides helical structure to guarantee cylinder (1) rotation outside.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN2012200109104U CN202547343U (en) | 2012-01-11 | 2012-01-11 | Roller using heat conducting medium for indirect heat conduction |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN2012200109104U CN202547343U (en) | 2012-01-11 | 2012-01-11 | Roller using heat conducting medium for indirect heat conduction |
Publications (1)
Publication Number | Publication Date |
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CN202547343U true CN202547343U (en) | 2012-11-21 |
Family
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Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
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CN2012200109104U Withdrawn - After Issue CN202547343U (en) | 2012-01-11 | 2012-01-11 | Roller using heat conducting medium for indirect heat conduction |
Country Status (1)
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CN (1) | CN202547343U (en) |
Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN103206851A (en) * | 2012-01-11 | 2013-07-17 | 苏州点击纺织机械有限公司 | Indirect heat conduction roller for heat conduction medium |
-
2012
- 2012-01-11 CN CN2012200109104U patent/CN202547343U/en not_active Withdrawn - After Issue
Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN103206851A (en) * | 2012-01-11 | 2013-07-17 | 苏州点击纺织机械有限公司 | Indirect heat conduction roller for heat conduction medium |
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Legal Events
Date | Code | Title | Description |
---|---|---|---|
C14 | Grant of patent or utility model | ||
GR01 | Patent grant | ||
AV01 | Patent right actively abandoned |
Granted publication date: 20121121 Effective date of abandoning: 20150902 |
|
RGAV | Abandon patent right to avoid regrant |