CN204665636U - Multistage pipeline heating system - Google Patents
Multistage pipeline heating system Download PDFInfo
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- CN204665636U CN204665636U CN201520300637.2U CN201520300637U CN204665636U CN 204665636 U CN204665636 U CN 204665636U CN 201520300637 U CN201520300637 U CN 201520300637U CN 204665636 U CN204665636 U CN 204665636U
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- heating
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Abstract
The utility model is applicable to the technical field of fluid heating, disclose a kind of multistage pipeline heating system, comprise pipeline and control circuit, pipeline comprises water inlet pipe, heating module and outlet pipe, heating module is made up of several heating cabinets, be equipped with heating pipe line in each heating cabinet, heating cabinet was in series by communicating pipe, and heating pipe line is provided with water service pipe, water service pipe has two sections at least, the two ends of water service pipe all merge, and heating cabinet is also provided with electric heater unit, and control circuit is connected with electric heater unit.The multistage pipeline heating system of the one that the utility model provides, structure is simple, easy to assembly, heat while liquid stream transmission, under the prerequisite of electricity separation, simplify the structure of the passage of transmission hot water simultaneously, thus decrease the consumption of electric energy, increase the flow that can use hot water, ensure that the heating-up temperature of large discharge hot water, improve the efficiency of heating surface of heating system, and then be beneficial to the combination property and the market competitiveness that improve heating system.
Description
[technical field]
The utility model relates to fluid heating system, particularly the multistage pipeline heating system of one.
[background technology]
General liquid as when water, beverage heating be mostly utilize gas or fuel ignition heating, but Yin Wasi danger is high, easy generation waste gas, just has dealer to adopt solar energy to heat, but still has when solar energy uses easily by problems such as weather effect, solar facilities costlinesses.The most fast and effectively mode utilizes electric heater to heat on the market at present, the mode of heating of tradition electric heater is provided with water storage box mostly, water storage box is needed to fill before using, the water that heater heating in recycling water storage box stores, and then by flowing water Valve, the hot water heated in water storage box is discharged, thus meet the object that user uses hot water, though problem and the puzzlement of gas heating mode can be exempted, but because electric heater needs to start in advance to prepare hot water, firing rate is slow, stand-by period is long, and the efficiency of heating surface is also not satisfactory.
Therefore existing immediately heating water heater or adopt multiple water storage box to heat simultaneously, or the water pipe inside resistance of energising being placed in transmission is heated.But the former mode of heating needs larger power when heating, and causes the waste to electric energy, simultaneously because of the finite capacity of its water storage box, cause the hot water flow that provides less; In the mode of heating of the latter, install the complex process of resistance in water pipe inside, the maintenance after installation is also very inconvenient, and the impurity simultaneously in water is also easy to be piled up at resistance place, resistance can be caused after long-time use to the deterioration of efficiency of liquid conductive heat, cause power consumption to increase.
[utility model content]
The purpose of this utility model is to overcome above-mentioned the deficiencies in the prior art, provides a kind of multistage pipeline heating system, and it is intended to solve the technical problem that the hot water flow provided in the heating system of prior art is little, firing rate slow, the efficiency of heating surface is not good.
For achieving the above object, the utility model proposes a kind of multistage pipeline heating system, comprise pipeline and control circuit, described pipeline comprises water inlet pipe, heating module and outlet pipe, the lower end of described heating module is connected with water inlet pipe, the upper end of described heating module is connected with outlet pipe, described heating module is made up of several heating cabinets, heating pipe line is equipped with in each heating cabinet, described heating cabinet was in series by communicating pipe, described heating pipe line is provided with water service pipe, described water service pipe has two sections at least, heating space is formed between every two sections of water service pipes, the two ends of described water service pipe all merge, described heating cabinet is also provided with electric heater unit, described electric heater unit is located in heating space, described control circuit is connected with electric heater unit.
As preferably, described heating pipe line also comprises elbow and three-way pipe, and the two ends of described water service pipe are all connected with elbow or three-way pipe, and described elbow is connected with three-way pipe, and described three-way pipe was connected with communicating pipe.
As preferably, described heating pipe line comprises the first heating pipe line, the 3rd heating pipe line and some second heating pipe lines, described first heating pipe line is located in the heating cabinet of heating module lower end, described 3rd heating pipe line is located in the heating cabinet of heating module upper end, described second heating pipe line is located between the first heating pipe line and the 3rd heating pipe line, described first heating pipe line is provided with two sections of water service pipes, described second heating pipe line is provided with three sections of water service pipes, and described 3rd heating pipe line is provided with at least three sections of water service pipes.
As preferably, described first heating pipe line comprises two sections of water service pipes, four elbows and two sections of three-way pipes, described water service pipe is straight tube, the two ends up and down of every section of water service pipe are all connected with elbow, the two ends, left and right of every section of three-way pipe are connected with two elbows respectively, the middle mouth of pipe being positioned at the three-way pipe of heating pipe line lower end is connected with water inlet pipe, and the middle mouth of pipe being positioned at the three-way pipe of heating pipe line upper end was connected with communicating pipe.
As preferably, described second heating pipe line comprises three sections of water service pipes, four elbows and two sections of three-way pipes, described water service pipe is straight tube, described three-way pipe also offers interface, the two ends up and down of one section of water service pipe are wherein had to be connected with the interface of two sections of three-way pipes respectively, the two ends up and down of remaining every section water service pipe are all connected with elbow, and the two ends, left and right of every section of three-way pipe are connected with two elbows respectively, and the middle mouth of pipe of described three-way pipe is all connected with communicating pipe.
As preferably, described 3rd heating pipe line comprises at least three sections of water service pipes, four elbows and two sections of three-way pipes, described water service pipe is straight tube, described three-way pipe also offers at least one interface, the two ends up and down of two sections of water service pipes are wherein had to be connected with elbow, the two ends up and down of remaining water service pipe are connected with the interface of two sections of three-way pipes respectively, the two ends, left and right of every section of three-way pipe are connected with two elbows respectively, the middle mouth of pipe being positioned at the three-way pipe of heating pipe line lower end was connected with communicating pipe, and the middle mouth of pipe being positioned at the three-way pipe of heating pipe line upper end is connected with outlet pipe.
As preferably, described control circuit is provided with gauge tap and master switch, and described gauge tap is connected with each heating cabinet respectively, and described master switch is connected with power supply.
The beneficial effects of the utility model: compared with prior art, the multistage pipeline heating system of the one that the utility model provides, structure is simple, easy to assembly, heat while current transmission, the structure of hot water delivery's passage is simplified under the prerequisite ensureing electricity separation, thus reduce the consumption of electric energy when heating, the flow of the hot water that increase can use, and accelerate the firing rate of hot water, improve the efficiency of heating surface of heating system, and then be beneficial to the combination property and the market competitiveness that improve heating system.
Feature of the present utility model and advantage will be described in detail by reference to the accompanying drawings by embodiment.
[accompanying drawing explanation]
Fig. 1 is the structural representation of the utility model embodiment;
Fig. 2-1 is the structural representation of the first heating pipe line 61 in the utility model embodiment;
Fig. 2-2 is using state figure of the first heating pipe line 61 in the utility model embodiment;
Fig. 3-1 is the structural representation of the first heating pipe line 62 in the utility model embodiment;
Fig. 3-2 is using state figure of the first heating pipe line 62 in the utility model embodiment;
Fig. 4-1 is the structural representation of the first heating pipe line 63 in the utility model embodiment;
Fig. 4-2 is using state figure of the first heating pipe line 63 in the utility model embodiment.
[detailed description of the invention]
For making the purpose of this utility model, technical scheme and advantage clearly understand, below by accompanying drawing and embodiment, the utility model is further elaborated.But should be appreciated that, specific embodiment described herein, only in order to explain the utility model, is not limited to scope of the present utility model.In addition, in the following description, the description to known features and technology is eliminated, to avoid unnecessarily obscuring concept of the present utility model.
Consult Fig. 1, Fig. 2-1 and Fig. 2-2, the utility model embodiment provides a kind of multistage pipeline heating system, comprise pipeline and control circuit 1, pipeline comprises water inlet pipe 2, heating module 3 and outlet pipe 4, the lower end of heating module 3 is connected with water inlet pipe 2, and the upper end of heating module 3 is connected with outlet pipe 4, that is, current flow into heating module 3 by water inlet pipe 2 fast, and then the hot water of large discharge flows out from outlet pipe 4.This kind of structure heats when water transmits, and electricity separation, make heating system safety controlled, easy to assembly.Heating module 3 is made up of several heating cabinets 5, heating pipe line 6 is equipped with in each heating cabinet 5, heating cabinet 5 was in series by communicating pipe 7, heating pipe line 6 is provided with water service pipe 64, and water service pipe 64 has two sections at least, forms heating space 67 between every two sections of water service pipes 64, the two ends of water service pipe 64 all merge, heating cabinet 5 is also provided with electric heater unit 51, and electric heater unit 51 is located in heating space 67, and control circuit 1 is connected with electric heater unit 51.
Pipeline in embodiment of the present utility model can be installed outside room, and control circuit 1 is installed within doors, now, if outside air temperature is lower, then can add last layer insulating foam 8 on the outer wall being exposed to extraneous pipeline when using, in order to insulation.
Particularly, heating pipe line 6 also comprises elbow 65 and three-way pipe 66, and the two ends of water service pipe 64 are merged by elbow 65 or three-way pipe 66, and are connected with communicating pipe 7.Wherein, elbow 65 is connected with three-way pipe 66, and three-way pipe 66 was connected with communicating pipe 7.
Referring again to Fig. 3-1, Fig. 3-2, Fig. 4-1 and Fig. 4-2, heating pipe line 6 in embodiment of the present utility model comprises the first heating pipe line 61, the 3rd heating pipe line 63 and two the second heating pipe lines 62, first heating pipe line 61 is located in the heating cabinet 5 of heating module 3 lower end, 3rd heating pipe line 63 is located in the heating cabinet 5 of heating module 3 upper end, and the second heating pipe line 62 is located between the first heating pipe line 61 and the 3rd heating pipe line 63.That is, heating pipe line 6 is respectively equipped with the 3rd heating pipe line 63, second heating pipe line 62, second heating pipe line 62 and the first heating pipe line 61 from top to bottom.Wherein, the first heating pipe line 61 is provided with two sections of water service pipes 64, second heating pipe line 62 and is provided with three sections of water service pipes the 64, three heating pipe line 63 and is provided with four sections of water service pipes 64.
When current fast from heating module 3 lower end upwards by heating pipe line 6 time, the first heating pipe line 61 being only provided with two sections of water service pipes 64 is shunted few, and the speed of current can be kept; Second heating pipe line 62 being provided with three sections of water service pipes 64 of mid portion makes current disperse, and increases the volume that is heated of current, can heat current well; The 3rd heating pipe line 63 being provided with four sections of water service pipes 64 of heating pipe line 3 upper end has disperseed current further, and the volume that current in the unit interval are heated increases, and the efficiency of heating surface of heating module 3 increases, thus ensures that the temperature of the current that outlet pipe 4 flows out is high.
Certainly, the heating pipe line 6 of embodiment of the present utility model can be provided with more second heating pipe line 62, such as 3, thus make heating pipe line 6 longer, the time that current are heated is also longer, and then the temperature of the hot water that outlet pipe 4 is flowed out is higher, to meet the higher needs of user.
Particularly, first heating pipe line 61 comprises two sections of water service pipes, 64, four elbows 65 and two sections of three-way pipes 66, wherein, water service pipe 64 is straight tube, the two ends up and down of every section of water service pipe 64 are all connected with elbow 65, the two ends, left and right of every section of three-way pipe 66 are connected with two elbows 65 respectively, the middle mouth of pipe being positioned at the three-way pipe 66 of the first heating pipe line 61 lower end is connected with water inlet pipe 2, the middle mouth of pipe being positioned at the three-way pipe 66 of the first heating pipe line 61 upper end was connected with communicating pipe 7, thus formed the water stream channel of two bifurcateds.
Second heating pipe line 62 comprises three sections of water service pipes, 64, four elbows 65 and two sections of three-way pipes 66.Wherein, water service pipe 64 is also straight tube, unlike, interface 661 is also offered in the centre of three-way pipe 66, the two ends up and down of one section of water service pipe 64 are wherein had to be connected with the interface 661 of two sections of three-way pipes 66 respectively, the two ends up and down of remaining every section water service pipe 64 are all connected with elbow 65, the two ends, left and right of every section of three-way pipe 66 are connected with two elbows 65 respectively, the middle mouth of pipe of two sections of three-way pipes 66 is all connected with communicating pipe 7, thus form the water stream channel of three bifurcateds, and the communicating pipe 7 at upper and lower two ends is directly connected by one of them bifurcated, and then the speed of current can not significantly reduce when ensure that heating.
3rd heating pipe line 63 comprises four sections of water service pipes 64, four elbows 65 and two sections of three-way pipes 66, water service pipe 64 is straight tube, three-way pipe 66 offers two symmetrical mutually interfaces 661, the two ends up and down of two sections of water service pipes 64 are wherein had to be connected with elbow 65, the two ends up and down of remaining two sections of water service pipe 64 are connected with corresponding interface 661, the two ends, left and right of every section of three-way pipe 66 are connected with two elbows 65 respectively, the middle mouth of pipe being positioned at the three-way pipe 66 of heating pipe line 6 lower end was connected with communicating pipe 7, the middle mouth of pipe being positioned at the three-way pipe 66 of heating pipe line 6 upper end is connected with outlet pipe 4, thus form the water stream channel of four bifurcateds, and then the heating space 67 that formation three is separate, when current are disperseed, the volume that is heated of unit interval increases, improve the efficiency of heating surface.
Certainly, the 3rd heating pipe line 63 of embodiment of the present utility model can also be provided with more multistage water service pipe 64, such as 6 sections, and now only need to offer corresponding interface 641 according to the hop count of water service pipe 64, remaining structure is without the need to changing.
Particularly, the master switch 12 of control circuit is connected with 220V AC power.When current enter from water inlet pipe 2, user can pass through operation-control switch 11 as required, thus selects the 5 pairs of current heating of different heating case, makes the temperature of the current finally flowed out from outlet pipe 4 just have difference, and then meets the different demands of user.
The foregoing is only preferred embodiment of the present utility model; not in order to limit the utility model; all do within spirit of the present utility model and principle any amendment, equivalent to replace or improvement etc., all should be included within protection domain of the present utility model.
Claims (7)
1. a multistage pipeline heating system, comprise pipeline and control circuit (1), it is characterized in that: described pipeline comprises water inlet pipe (2), heating module (3) and outlet pipe (4), the lower end of described heating module (3) is connected with water inlet pipe (2), the upper end of described heating module (3) is connected with outlet pipe (4), described heating module (3) is made up of several heating cabinets (5), heating pipe line (6) is equipped with in each heating cabinet (5), described heating cabinet (5) was in series by communicating pipe (7), described heating pipe line (6) is provided with water service pipe (64), described water service pipe (64) has two sections at least, heating space (67) is formed between every two sections of water service pipes, the two ends of described water service pipe (64) all merge, described heating cabinet (5) is also provided with electric heater unit (51), described electric heater unit (51) is located in heating space (67), described control circuit (1) is connected with electric heater unit (51).
2. multistage pipeline heating system as claimed in claim 1, it is characterized in that: described heating pipe line (6) also comprises elbow (65) and three-way pipe (66), the two ends of described water service pipe (64) are all connected with elbow (65) or three-way pipe (66), described elbow (65) is connected with three-way pipe (66), and described three-way pipe (66) was connected with communicating pipe (7).
3. multistage pipeline heating system as described in claim 2, it is characterized in that: described heating pipe line (6) comprises the first heating pipe line (61), 3rd heating pipe line (63) and some second heating pipe lines (62), described first heating pipe line (61) is located in the heating cabinet (5) of heating module (3) lower end, described 3rd heating pipe line (63) is located in the heating cabinet (5) of heating module (3) upper end, described second heating pipe line (62) is located between the first heating pipe line (61) and the 3rd heating pipe line (63), described first heating pipe line (61) is provided with two sections of water service pipes (64), described second heating pipe line (62) is provided with three sections of water service pipes (64), described 3rd heating pipe line (63) is provided with at least three sections of water service pipes (64).
4. multistage pipeline heating system as claimed in claim 3, it is characterized in that: described first heating pipe line (61) comprises two sections of water service pipes (64), four elbows (65) and two sections of three-way pipes (66), described water service pipe (64) is straight tube, the two ends up and down of every section of water service pipe (64) are all connected with elbow (65), the two ends, left and right of every section of three-way pipe (66) are connected with two elbows (65) respectively, the middle mouth of pipe being positioned at the three-way pipe (66) of the first heating pipe line (61) lower end is connected with water inlet pipe (2), the middle mouth of pipe being positioned at the three-way pipe (66) of the first heating pipe line (61) upper end was connected with communicating pipe (7).
5. multistage pipeline heating system as claimed in claim 3, it is characterized in that: described second heating pipe line (62) comprises three sections of water service pipes (64), four elbows (65) and two sections of three-way pipes (66), described water service pipe (64) is straight tube, described three-way pipe (66) also offers interface (661), the two ends up and down of one section of water service pipe (64) are wherein had to be connected with the interface (661) of two sections of three-way pipes respectively, the two ends up and down of remaining every section water service pipe (64) are all connected with elbow (65), the two ends, left and right of every section of three-way pipe (66) are connected with two elbows (65) respectively, the middle mouth of pipe of described three-way pipe (66) is all connected with communicating pipe (7).
6. multistage pipeline heating system as claimed in claim 3, it is characterized in that: described 3rd heating pipe line (63) comprises at least three sections of water service pipes (64), four elbows (65) and two sections of three-way pipes (66), described water service pipe (64) is straight tube, described three-way pipe (66) also offers at least one interface (661), the two ends up and down of two sections of water service pipes (64) are wherein had to be connected with elbow (65), the two ends up and down of remaining water service pipe (64) are connected with the interface (661) of two sections of three-way pipes respectively, the two ends, left and right of every section of three-way pipe (66) are connected with two elbows (65) respectively, the middle mouth of pipe being positioned at the three-way pipe (66) of the 3rd heating pipe line (63) lower end was connected with communicating pipe (7), the middle mouth of pipe being positioned at the three-way pipe (66) of the 3rd heating pipe line (63) upper end is connected with outlet pipe (4).
7. multistage pipeline heating system as claimed in claim 1, it is characterized in that: described control circuit (1) is provided with gauge tap (11) and master switch (12), described gauge tap (11) is connected with each heating cabinet (5) respectively, and described master switch (12) is connected with power supply.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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CN201520300637.2U CN204665636U (en) | 2015-05-12 | 2015-05-12 | Multistage pipeline heating system |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
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CN201520300637.2U CN204665636U (en) | 2015-05-12 | 2015-05-12 | Multistage pipeline heating system |
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CN204665636U true CN204665636U (en) | 2015-09-23 |
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CN201520300637.2U Expired - Fee Related CN204665636U (en) | 2015-05-12 | 2015-05-12 | Multistage pipeline heating system |
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CN (1) | CN204665636U (en) |
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2015
- 2015-05-12 CN CN201520300637.2U patent/CN204665636U/en not_active Expired - Fee Related
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Legal Events
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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 |
Granted publication date: 20150923 Termination date: 20160512 |
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CF01 | Termination of patent right due to non-payment of annual fee |