CN202675937U - Energy-saving heat-dissipating device of heater - Google Patents
Energy-saving heat-dissipating device of heater Download PDFInfo
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- CN202675937U CN202675937U CN 201220018652 CN201220018652U CN202675937U CN 202675937 U CN202675937 U CN 202675937U CN 201220018652 CN201220018652 CN 201220018652 CN 201220018652 U CN201220018652 U CN 201220018652U CN 202675937 U CN202675937 U CN 202675937U
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Abstract
The utility model relates to an energy-saving heat-dissipating device comprising stainless flat steel tubes, a front stainless steel plate and a rear stainless steel plate or a common thin steel plate, an adjusting valve and air-discharging valve structures. A water-introducing end and a water-return end of a main pipeline of the heat-dissipating device are provided with flangings and connected with a lock nut, and the lock nut is sealed through a sealing ring and connected with a three-way thread. The heat-dissipating device can choose one of two structures. The first structure is that a plurality of process holes, among the stainless flat steel tubes, are arranged in the stainless steel plate, and the front stainless steel plate and the rear stainless steel plate are tightly attached to the front and the rear faces of the stainless flat steel plate through U-shaped bolts. The second structure is that a plurality of three-way threads A are arranged on the main pipeline, the rear end of the main pipeline is a bent head, the stainless flat steel tubes A formed through special process are connected with the lock nut A, and the lock nut A is sealed through the sealing ring A and connected with the three-way threads A and the bent head in a threading mode. The air-discharging valve structure is arranged respectively on a water inlet and a water outlet of a heater pipeline. The energy-saving heat-dissipating device for a heater has the advantages of being long in service life, good in heat-dissipating effect, reducing loss of heat in a water-return pipeline, and saving resources.
Description
Technical field
The utility model belongs to the household heating field, particularly relates to the energy-saving type heating radiator.
Background technology
At present, household heating uses the heating such as casting radiator, aluminium alloy radiator mostly, and cast iron central heating radiator heating radiating efficiency is low, and the hot water heat that enters radiator does not pass and just entered water return pipeline.Greatly wasted the energy.And aluminium alloy radiator ph value is only applicable to=the neutral weak base water of 5-8.To the boiler direct-furnish water that use mostly in the north, pH value=10-12 is so can not use.The radiator of existing market mostly is the formed pipe welding, because the weldable steel tube wall must reach certain thickness, the easy solder skip of weld or rosin joint are easy to corrosion and leak in addition, and General Life is about 10 years.And present air bleeding valve all is horizontally set mostly, and when exhaust, the water in the pipeline is easy to will be sprayed on the metope, and it is attractive in appearance to affect metope.
Summary of the invention
The utility model is for solving that the technical problem that exists in the known technology provides a kind of simple in structure, long service life, cost is low and can improving the energy-saving type heating radiator of radiating efficiency.
The technical scheme that the utility model is taked for the technical problem that exists in the solution known technology is:
The energy-saving type heating radiator is characterized in that: the two sides, front and back that described stainless steel Flat steel pipe is specially-shaped is the band steel on plane, and fits tightly with stainless-steel sheet.
The energy-saving type heating radiator is characterized in that: described stainless steel Flat steel pipe is no-welding-seam 304 steel pipes
Energy-saving convector is characterized in that: described cone blocking and hexagonal locknut are interference fits.
Energy-saving convector is characterized in that: enter the water return outlet place and be equipped with exhaust structure, also have pressure reduction structure in the exhaust structure of water inlet, and the water inlet also is provided with control valve.
Energy-saving convector comprises stainless steel Flat steel pipe and front and back stainless-steel sheet or general steel sheet, control valve and exhaust structure etc.The trunk line of radiator advances the equal turned welt in water return outlet two ends, and is connected with locknut, and locknut is threaded with threeway with the sealing ring sealing again.In the optional two kinds of structures of radiator any, the first is at stainless-steel sheet and is provided with a plurality of fabrication holes between the stainless steel Flat steel pipe, described stainless steel Flat steel pipe material is 304, it is the stainless steel Flat steel pipe by the special process moulding, the two ends of described stainless-steel sheet are connected with bolt and nut, and with U-bolt the plane, front and back of front and back stainless-steel sheet and stainless steel Flat steel pipe are fitted tightly; It two is a plurality of threeway A to be set and terminal to be elbow at trunk line, by the stainless steel Flat steel pipe A of special process moulding, and the equal turned welt in two ends, and is connected with locknut A, locknut A seals with sealing ring A and is threaded with described threeway A and elbow.Intake-outlet place at caliduct is equipped with exhaust structure.Also have pressure reduction structure in the exhaust structure of described water inlet, formed by threeway, sealing ring, push rod, spring, spring bearer plate, cone blocking and hexagonal locknut.Described water outlet exhaust structure is comprised of threeway, sealing ring, cone blocking and hexagonal locknut.In threeway right-hand member inside protruding circular ring is arranged, there is push rod on the annulus right side, and cover has a spring on the push rod, spring top with spring bearer plate that threeway connects on, threeway is threaded respectively with described hexagonal locknut, cone blocking is inserted in the centre bore of hexagonal locknut.And the place ahead at the water inlet exhaust structure also is provided with control valve.
The utility model can also adopt following technical scheme:
Described stainless steel, steel pipe are that the two sides, front and back of specially-shaped is the band steel on plane, and fit tightly with stainless-steel sheet.
Described stainless steel Flat steel pipe is no-welding-seam continuous U 304 steel pipes.
Described cone blocking and hexagonal locknut are interference fits.
Describedly enter the water return outlet place and be equipped with exhaust structure, in the exhaust structure of water inlet, also have pressure reduction structure, and the water inlet also is provided with control valve.
Advantage and the good effect that the utlity model has are: because the utility model adopts technique scheme, the service life of utilizing the no-welding-seam of stainless steel Flat steel pipe to improve radiator, life-span is about about 50 years, and the thin radiating effect of stainless steel band steel tube wall is high, steel plate fits tightly before and after cooperating, because front and back sheet metal area of dissipation is greater than the area of stainless steel Flat steel pipe, add the fabrication hole between the pipe pipe, greatly increased its area of dissipation, and stainless-steel sheet does not have electrostatic spray layer, thereby improved radiating efficiency, when the water of caliduct enters threeway, the push rod in the threeway will Compress Spring, and spring top is on spring bearer plate, thereby reach the purpose of decompression, be difficult for making the distortion of stainless steel Flat steel pipe.Heat will come out more efficiently when post-decompression hot water entered radiator.When giving the heating installation exhaust, become flexible the hexagonal locknut into the water return outlet place, the gap will occur between cone blocking and the threeway, gas and water will flow in the blast pipe that is connected with the hexagonal locknut along with the steam vent of cone blocking intermediate step, thereby discharge.And can regulate by the control valve of water inlet the water yield of radiator hot-water, thereby regulate the utilization rate of Thermal Energy of Central Heating.But also in the service life that not only can increase like this heating installation, also can increase the radiating efficiency of heating installation, reduce heat in the loss of water return pipeline, energy savings, and inferior kind of exhaust mode be difficult for making the water in the air bleeding valve to be sprayed onto on the metope, thereby guaranteed the attractive in appearance of metope.
Description of drawings
Fig. 1 is structural representation of the present utility model;
Fig. 1-the 1st, the partial structurtes of Fig. 1 are replaced schematic diagram;
Fig. 2 is the A-A part sectioned view of Fig. 1;
Fig. 3 is the top view of Fig. 1;
Structure chart when Fig. 4 is not exhaust of air bleeding valve.
Structure chart when Fig. 5 is the air bleeding valve exhaust
Among the figure: 1, stainless steel Flat steel pipe; 2, locknut; 3, sealing ring; 4, threeway; 5, control valve; 6, water inlet; 7, cone blocking; 7-1, steam vent; 8, hexagonal locknut; 9, blast pipe; 10, fabrication hole; 11, U-bolt and wing nut; 12, delivery port; 13, front stainless-steel sheet; 14, rear stainless-steel sheet; 15, spring bearer plate; 16, spring; 17, push rod; 18, threeway A; 19, locknut A; 20, sealing ring A; 21, elbow; 22, stainless steel limit Flat steel pipe A; 23, U-bolt and wing nut A.
The specific embodiment
For further understanding summary of the invention of the present utility model, Characteristic, hereby exemplify following examples, and cooperate accompanying drawing to be described in detail as follows:
See also Fig. 1-Fig. 5,
The energy-saving type heating radiator comprises stainless steel Flat steel pipe and front and back stainless-steel sheet or general steel sheet, control valve and exhaust structure etc.The trunk line of radiator advances water return outlet 6, the equal turned welt in 12 two ends, and is connected with locknut 2, and 3 sealings of locknut 2 usefulness sealing rings are threaded with threeway 4 again.In the optional two kinds of structures of radiator any, the first is in 1 of stainless steel Flat steel pipe at stainless-steel sheet and is provided with a plurality of fabrication holes 10, described stainless steel Flat steel pipe 1 material is 304, it is the stainless steel Flat steel pipe 1 by the special process moulding, described stainless- steel sheet 13,14 two ends are connected with bolt and nut, and stainless-steel sheet 13 before and after making with U-bolt and wing nut 11,14 and the plane, front and back of stainless steel Flat steel pipe 1 fit tightly; It two is a plurality of threeways 18 to be set and terminally to be elbow 21 at trunk line, stainless steel Flat steel pipe A22 by the special process moulding, the equal turned welt in two ends, and be connected with locknut A19, locknut A19 is threaded with described threeway A18 and elbow 21 with sealing ring A20 sealing again.Intake-outlet place at caliduct is equipped with exhaust structure.Also have pressure reduction structure in the exhaust structure of described water inlet 6, formed by threeway 4, sealing ring 3, push rod 17, spring 16, spring bearer plate 15, cone blocking 7 and hexagonal locknut 8.Described water outlet exhaust structure is comprised of threeway 4, sealing ring 3, cone blocking 7 and hexagonal locknut 8.In threeway 4 right-hand member inside protruding circular ring is arranged, there is push rod 17 on the annulus right side, and cover has spring 16, spring 16 to withstand on the spring bearer plate 15 that is connected with threeway 4 on the push rod 17, threeway 4 is threaded respectively with described hexagonal locknut 8, and cone blocking 7 is inserted in the centre bore of hexagonal locknut 8.And the place ahead at the water inlet exhaust structure also is provided with control valve 5.
Operation principle of the present utility model is:
The service life of utilizing the no-welding-seam of stainless steel Flat steel pipe 1 to improve radiator, life-span is about about 50 years, the thin radiating effect of stainless steel Flat steel pipe 1 wall of the first heat spreader structures is high, stainless-steel sheet 13 before and after cooperating, 14 fit tightly, and the fabrication hole 10 between the pipe pipe, greatly increase its area of dissipation, thereby improved radiating efficiency.The stainless steel steel Flat steel pipe A22 of the second heat spreader structures is thinner, and arranges than comparatively dense, stainless-steel sheet 13 before and after same cooperation the, 14 fit tightly, thus make more efficient the coming out of heat in the radiator.Water when the heating coil road enters threeway 4, and the push rod 17 in the threeway 4 will Compress Spring 16, and spring 16 withstands on the spring bearer plate 15, thereby reaches the purpose of decompression, is difficult for making 1 distortion of stainless steel Flat steel pipe.Heat will come out more efficiently when post-decompression hot water entered radiator.When giving the heating installation exhaust, the hexagonal locknut 8 at loosening water inlet 6 and water return outlet 12 places the gap will occur between cone blocking 7 and the threeway 4, and gas and water will be along with the steam vent 7-1 of cone blocking 7 intermediate step, flow in the blast pipe 9 that is connected with hexagonal locknut 8, thereby discharge.And can regulate by the control valve 5 at water inlet 6 places the water yield of radiator hot-water, thereby regulate the utilization rate of Thermal Energy of Central Heating.
Claims (5)
1. energy-saving convector is characterized in that: comprise stainless steel Flat steel pipe and front and back stainless-steel sheet or general steel sheet, control valve and exhaust structure etc.; The trunk line of radiator advances the equal turned welt in water return outlet two ends, and is connected with locknut, and locknut is threaded with threeway with the sealing ring sealing again; In the optional two kinds of structures of radiator any, the first is at stainless-steel sheet and is provided with a plurality of fabrication holes between the stainless steel Flat steel pipe, described stainless steel Flat steel pipe material is 304, it is the stainless steel Flat steel pipe by machine-shaping, the two ends of described stainless-steel sheet are connected with bolt and nut, and with U-bolt the plane, front and back of front and back stainless-steel sheet and stainless steel Flat steel pipe are fitted tightly; It two is a plurality of threeway A to be set and terminal to be elbow at trunk line, by the stainless steel Flat steel pipe A of machine-shaping, and the equal turned welt in two ends, and is connected with locknut A, locknut A seals with sealing ring A and is threaded with described threeway A and elbow; Intake-outlet place at caliduct is equipped with exhaust structure; Also have pressure reduction structure in the exhaust structure of described water inlet, formed by threeway, sealing ring, push rod, spring, spring bearer plate, cone blocking and hexagonal locknut; Described water outlet exhaust structure is comprised of threeway, sealing ring, cone blocking and hexagonal locknut; In threeway right-hand member inside protruding circular ring is arranged, there is push rod on the annulus right side, and cover has a spring on the push rod, spring top with spring bearer plate that threeway connects on, threeway is threaded respectively with described hexagonal locknut, cone blocking is inserted in the centre bore of hexagonal locknut; And the place ahead at the water inlet exhaust structure also is provided with control valve.
2. energy-saving heating structure according to claim 1, it is characterized in that: the two sides, front and back that described stainless steel Flat steel pipe is specially-shaped is the band steel on plane, and fits tightly with stainless-steel sheet.
3. energy-saving heating structure according to claim 1, it is characterized in that: described stainless steel Flat steel pipe is no-welding-seam 304 steel pipes
4. energy-saving heating structure according to claim 1, it is characterized in that: described cone blocking and hexagonal locknut are interference fits.
5. energy-saving heating structure according to claim 1 is characterized in that: enter the water return outlet place and be equipped with exhaust structure, also have pressure reduction structure in the exhaust structure of water inlet, and the water inlet also is provided with control valve.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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CN 201220018652 CN202675937U (en) | 2012-01-17 | 2012-01-17 | Energy-saving heat-dissipating device of heater |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
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CN 201220018652 CN202675937U (en) | 2012-01-17 | 2012-01-17 | Energy-saving heat-dissipating device of heater |
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CN202675937U true CN202675937U (en) | 2013-01-16 |
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CN 201220018652 Expired - Lifetime CN202675937U (en) | 2012-01-17 | 2012-01-17 | Energy-saving heat-dissipating device of heater |
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Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN104033952A (en) * | 2013-03-06 | 2014-09-10 | 王锦林 | Energy-saving multifunctional heating radiator |
CN106403646A (en) * | 2016-10-11 | 2017-02-15 | 合肥华凌股份有限公司 | Heat exchanger and wine cabinet with same |
-
2012
- 2012-01-17 CN CN 201220018652 patent/CN202675937U/en not_active Expired - Lifetime
Cited By (3)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN104033952A (en) * | 2013-03-06 | 2014-09-10 | 王锦林 | Energy-saving multifunctional heating radiator |
CN104033952B (en) * | 2013-03-06 | 2016-12-28 | 王锦林 | Energy-saving multifunction radiator |
CN106403646A (en) * | 2016-10-11 | 2017-02-15 | 合肥华凌股份有限公司 | Heat exchanger and wine cabinet with same |
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CX01 | Expiry of patent term |
Granted publication date: 20130116 |