CN203116271U - Water-free heat supplying system for workshop and plant - Google Patents
Water-free heat supplying system for workshop and plant Download PDFInfo
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- CN203116271U CN203116271U CN 201320103044 CN201320103044U CN203116271U CN 203116271 U CN203116271 U CN 203116271U CN 201320103044 CN201320103044 CN 201320103044 CN 201320103044 U CN201320103044 U CN 201320103044U CN 203116271 U CN203116271 U CN 203116271U
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- blast stove
- heat
- heating system
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Abstract
The utility model relates to a water-free heat supplying system, in particular to a water-free heat supplying system used for seawater seedling raising and aquaculture workshops. The water-free heat supplying system for a workshop and a plant comprises a hot-blast stove, a fan is arranged on one side of the hot-blast stove, the other side of the hot-blast stove is connected with a main conveying pipeline in the workshop, and a heat insulation layer is arranged on the periphery of the main conveying pipeline. The water-free heat supplying system for the workshop and the plant adopts air as a medium to heat normal temperature air to be high temperature air through the hot-blast stove, then the fan conveys the high temperature air to a conveying pipeline in the workshop, and the high temperature air is output through an air outlet to improve temperature in the workshop. Furthermore, the temperature in the workshop can be adjusted and controlled through an air adjusting valve, so that heat exchange efficiency is improved. Compared with a water heating heat supplying method, the system is small in heat loss, cannot cause corrosion of the conveying pipeline, prolongs service life of a device, and also reduces cultivation cost for culturists.
Description
Technical field
The utility model relates to anhydrous heating system, in particular for the anhydrous heating system in seawater seed rearing, breed workshop.
Background technology
At present, the heat-supplying mode in seawater seed rearing, breed workshop mostly is water heating type.The water heating type heating system is by hot-water boiler water to be heated to uniform temperature, with circulating pump water is transported to and cultures the workshop, and by heat abstractors such as radiator, fan coils heat is come out.The subject matter that this heat-supplying mode exists be heat loss big, carry that heat is slow, the thermal efficiency is low, and because the coastal area mostly is moist weather greatly, heat abstractor uses under this environment for a long time, easily cause corrosion, influence the service life of equipment, equipment also needs often to safeguard and change in addition, has increased a lot of aquaculture costs for raisers.
Summary of the invention
The purpose of this utility model is to solve the weak point that above-mentioned prior art exists, and the anhydrous heating system of workshop, factory building that a kind of reasonable in design, heat exchange efficiency height, heat loss are little, can prolong service life of equipment is provided.
The utility model is achieved through the following technical solutions:
The anhydrous heating system of workshop, factory building, its special character is to comprise hot-blast stove 1, and hot-blast stove 1 one sides are provided with blower fan 2, and the main delivery pipe 4 in hot-blast stove 1 opposite side and the workshop 3 is connected, and main delivery pipe 4 peripheries are provided with heat-insulation layer 7;
Have exhaust vent 8 on the described main delivery pipe 4;
Be connected with discharge pipe 6 on the described main delivery pipe 4, adjusting valve 5 is installed on the discharge pipe 6;
Under the long situation of the length in workshop 3, in order to guarantee uniform heat distribution, in the described main delivery pipe 4 pipeline fan 10 is installed;
Described blower fan 2 is connected with workshop 3 by intermediate connection tube 12;
Described main delivery pipe 4 is connected with branch conveyance conduit 11, and the periphery of branch's conveyance conduit 11 is provided with heat-insulation layer 7;
On the described branch conveyance conduit 11 adjusting valve 5 is installed;
Be connected with discharge pipe 6 on the described branch conveyance conduit 11, adjusting valve 5 is installed on the discharge pipe 6;
On the described branch conveyance conduit 11 pipeline fan 10 is installed;
High temperature air flow for the ease of in the control branch conveyance conduit 11 is equipped with flow control valve 9 on the described branch conveyance conduit 11.
The anhydrous heating system of workshop of the present utility model, factory building, be medium with the air, by hot-blast stove normal temperature air is heated to be high temperature air, by blower fan high temperature air is flowed to conveyance conduit in the workshop again, by air outlet output high temperature air, to improve the temperature in the workshop, but also can regulate and control temperature in the workshop by adjusting valve, thereby improved heat exchange efficiency, relative hot-water heating heat-supplying mode in the past, the native system heat loss is little, and can not cause the corrosion of conveyance conduit, prolong the service life of equipment, also reduced aquaculture cost for the raiser.
Description of drawings
Fig. 1: the utility model embodiment 1 structural representation;
Fig. 2: the utility model embodiment 2 structural representations;
Fig. 3: the utility model embodiment 3 structural representations;
Fig. 4: the utility model embodiment 4 structural representations;
Fig. 5: the utility model embodiment 5 structural representations;
Fig. 6: the utility model embodiment 6 structural representations;
Fig. 7: the utility model embodiment 7 structural representations;
Fig. 8: the utility model embodiment 8 structural representations;
Among the figure: 1, hot-blast stove, 2, blower fan, 3, the workshop, 4, main delivery pipe, 5, adjusting valve, 6, discharge pipe, 7, heat-insulation layer, 8, exhaust vent, 9, flow control valve, 10, pipeline fan, 11, branch's conveyance conduit, 12, intermediate connection tube.
The specific embodiment
Provide the specific embodiment of the present utility model below with reference to accompanying drawing, be used for formation of the present utility model is described in further detail.
The anhydrous heating system of the workshop of present embodiment, factory building with reference to figure 1, comprises hot-blast stove 1, hot-blast stove 1 one sides are provided with blower fan 2, main delivery pipe 4 in hot-blast stove 1 opposite side and the workshop 3 is connected, and main delivery pipe 4 peripheries are provided with heat-insulation layer 7, have exhaust vent 8 on the main delivery pipe 4.
This heating system is applicable to the workshop that length is short, can take full advantage of the heat of high temperature air.
The anhydrous heating system of the workshop of present embodiment, factory building with reference to figure 2, comprises hot-blast stove 1, hot-blast stove 1 one sides are provided with blower fan 2, main delivery pipe 4 in hot-blast stove 1 opposite side and the workshop 3 is connected, and main delivery pipe 4 peripheries are provided with heat-insulation layer 7, have exhaust vent 8 on the main delivery pipe 4; Pipeline fan 10 is installed in the main delivery pipe 4.
The difference of this embodiment and embodiment 1 just is: pipeline fan 10 has been installed in the main delivery pipe 4.This heating system is applicable to the workshop that length is long, if the pipe laying blower fan will not cause that heat is more little more backward in the workshop, native system has been installed pipeline fan, makes that temperature is even in the workshop.
The anhydrous heating system of the workshop of present embodiment, factory building with reference to figure 3, comprises hot-blast stove 1, and hot-blast stove 1 one sides are provided with blower fan 2, and the main delivery pipe 4 in hot-blast stove 1 opposite side and the workshop 3 is connected, and main delivery pipe 4 peripheries are provided with heat-insulation layer 7; Be connected with discharge pipe 6 on the main delivery pipe 4, adjusting valve 5 is installed on the discharge pipe 6; Pipeline fan 10 is installed in the main delivery pipe 4; Blower fan 2 is connected with workshop 3 by intermediate connection tube 12.
Embodiment 4
The anhydrous heating system of the workshop of present embodiment, factory building with reference to figure 4, comprises hot-blast stove 1, and hot-blast stove 1 one sides are provided with blower fan 2, and the main delivery pipe 4 in hot-blast stove 1 opposite side and the workshop 3 is connected, and main delivery pipe 4 peripheries are provided with heat-insulation layer 7; Main delivery pipe 4 is connected with branch conveyance conduit 11, and the periphery of branch's conveyance conduit 11 is provided with heat-insulation layer 7; Be connected with discharge pipe 6 on branch's conveyance conduit 11, adjusting valve 5 is installed on the discharge pipe 6.
The anhydrous heating system of the workshop of present embodiment, factory building with reference to figure 5, is with the difference of embodiment 4, is provided with pipeline fan 10 at branch's conveyance conduit 11.
Present embodiment is provided with pipeline fan 10 applicable to the heating in a plurality of workshops at branch's conveyance conduit 11, can guarantee the uniform heat distribution in each branch's conveyance conduit 11 like this, the more low situation of temperature more backward can not occur.
The anhydrous heating system of the workshop of present embodiment, factory building with reference to figure 6, comprises hot-blast stove 1, and hot-blast stove 1 one sides are provided with blower fan 2, and the main delivery pipe 4 in hot-blast stove 1 opposite side and the workshop 3 is connected, and main delivery pipe 4 peripheries are provided with heat-insulation layer 7; Main delivery pipe 4 is connected with branch conveyance conduit 11, and the periphery of branch's conveyance conduit 11 is provided with heat-insulation layer 7; Be connected with discharge pipe 6 on branch's conveyance conduit 11, adjusting valve 5 is installed on the discharge pipe 6; Pipeline fan 10 is installed on branch's conveyance conduit 11; Flow control valve 9 is installed on branch's conveyance conduit 11.
The anhydrous heating system of the workshop of present embodiment, factory building with reference to figure 7, comprises hot-blast stove 1, and hot-blast stove 1 one sides are provided with blower fan 2, and the main delivery pipe 4 in hot-blast stove 1 opposite side and the workshop 3 is connected, and main delivery pipe 4 peripheries are provided with heat-insulation layer 7; Pipeline fan 10 is installed in the main delivery pipe 4; Main delivery pipe 4 is connected with branch conveyance conduit 11, and the periphery of branch's conveyance conduit 11 is provided with heat-insulation layer 7; Adjusting valve 5 is installed on branch's conveyance conduit 11.
Present embodiment is applicable to highly higher workshop, according to workman's real work position, workshop, can branch's conveyance conduit 11 be set in main delivery pipe 4 lower ends, so just can improve workman's temperature on every side, the pipeline fan 10 of setting, and it is even to have guaranteed that heat distributes.
The anhydrous heating system of the workshop of present embodiment, factory building with reference to figure 8, comprises hot-blast stove 1, and hot-blast stove 1 one sides are provided with blower fan 2, and the main delivery pipe 4 in hot-blast stove 1 opposite side and the workshop 3 is connected, and main delivery pipe 4 peripheries are provided with heat-insulation layer 7; Main delivery pipe 4 is connected with branch conveyance conduit 11, and the periphery of branch's conveyance conduit 11 is provided with heat-insulation layer 7; Adjusting valve 5 is installed on branch's conveyance conduit 11; Pipeline fan 10 is installed on branch's conveyance conduit 11.
Operation principle: this heating system, be medium with the air, by hot-blast stove normal temperature air is heated to be high temperature air, by blower fan high temperature air is flowed to conveyance conduit in the workshop again, by air outlet output high temperature air, to improve the temperature in the workshop, but also can regulate and control temperature in the workshop by adjusting valve, thereby improved heat exchange efficiency, the pipeline fan of She Zhiing has also guaranteed the even of heat distribution in addition.
The unspecified content of the utility model is prior art, and those skilled in the art can obtain to inspire from present embodiment and prior art, is out of shape to obtain other embodiment.Therefore, protection domain of the present utility model should be determined according to the protection domain of claim.
Claims (10)
1. the anhydrous heating system of workshop, factory building, it is characterized in that comprising hot-blast stove (1), hot-blast stove (1) one side is provided with blower fan (2), and the main delivery pipe (4) in hot-blast stove (1) opposite side and workshop (3) is connected, and main delivery pipe (4) periphery is provided with heat-insulation layer (7).
2. according to the described workshop of claim 1, the anhydrous heating system of factory building, it is characterized in that having on the described main delivery pipe (4) exhaust vent (8).
3. according to the described workshop of claim 1, the anhydrous heating system of factory building, it is characterized in that being connected with discharge pipe (6) on the described main delivery pipe (4), adjusting valve (5) is installed on the discharge pipe (6).
4. according to the described workshop of claim 1, the anhydrous heating system of factory building, it is characterized in that being equipped with in the described main delivery pipe (4) pipeline fan (10).
5. according to the described workshop of claim 1, the anhydrous heating system of factory building, it is characterized in that described blower fan (2) is connected with workshop (3) by intermediate connection tube (12).
6. according to the described workshop of claim 1, the anhydrous heating system of factory building, it is characterized in that described main delivery pipe (4) is connected with branch's conveyance conduit (11), the periphery of branch's conveyance conduit (11) is provided with heat-insulation layer (7).
7. according to the described workshop of claim 6, the anhydrous heating system of factory building, it is characterized in that being equipped with on the described branch conveyance conduit (11) adjusting valve (5).
8. according to the described workshop of claim 6, the anhydrous heating system of factory building, it is characterized in that being connected with discharge pipe (6) on the described branch conveyance conduit (11), adjusting valve (5) is installed on the discharge pipe (6).
9. according to the described workshop of claim 6, the anhydrous heating system of factory building, it is characterized in that being equipped with on the described branch conveyance conduit (11) pipeline fan (10).
10. according to the described workshop of claim 6, the anhydrous heating system of factory building, it is characterized in that being equipped with on the described branch conveyance conduit (11) flow control valve (9).
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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CN 201320103044 CN203116271U (en) | 2013-03-03 | 2013-03-03 | Water-free heat supplying system for workshop and plant |
Applications Claiming Priority (1)
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CN 201320103044 CN203116271U (en) | 2013-03-03 | 2013-03-03 | Water-free heat supplying system for workshop and plant |
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CN203116271U true CN203116271U (en) | 2013-08-07 |
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CN 201320103044 Expired - Fee Related CN203116271U (en) | 2013-03-03 | 2013-03-03 | Water-free heat supplying system for workshop and plant |
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Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN115127135A (en) * | 2022-06-20 | 2022-09-30 | 上海巴拿拿科技有限公司 | Factory building waste heat air-cooled dust collector |
-
2013
- 2013-03-03 CN CN 201320103044 patent/CN203116271U/en not_active Expired - Fee Related
Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN115127135A (en) * | 2022-06-20 | 2022-09-30 | 上海巴拿拿科技有限公司 | Factory building waste heat air-cooled dust collector |
CN115127135B (en) * | 2022-06-20 | 2023-08-08 | 上海巴拿拿科技有限公司 | Factory building waste heat forced air cooling dust collector |
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Legal Events
Date | Code | Title | Description |
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C14 | Grant of patent or utility model | ||
GR01 | Patent grant | ||
CF01 | Termination of patent right due to non-payment of annual fee | ||
CF01 | Termination of patent right due to non-payment of annual fee |
Granted publication date: 20130807 Termination date: 20210303 |