CN208419180U - A kind of multi-temperature speed heat assembly - Google Patents
A kind of multi-temperature speed heat assembly Download PDFInfo
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- CN208419180U CN208419180U CN201821030286.8U CN201821030286U CN208419180U CN 208419180 U CN208419180 U CN 208419180U CN 201821030286 U CN201821030286 U CN 201821030286U CN 208419180 U CN208419180 U CN 208419180U
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Abstract
The utility model belongs to water heating system field, more particularly to a kind of multi-temperature speed heat assembly, it include: source water tank, it is internally provided with partition, source water cavity side is divided into source water cavity and water level chamber by partition, source water cavity bottom is provided with the first flow pipe for being connected to water level bottom of chamber portion, is provided with heat exchanger in the water cavity of source;Preheating can, position are lower than source water tank, and water level bottom of chamber portion is provided with the second flow pipe and is connected to preheating can;Heating tube, preheating can are provided with third flow pipe and are connected to heating bottom of the tube.The utility model is kept in using by the water after preheating to preheating can, the water in preheating can is subjected to heat exchange by the heat exchanger in the water cavity of source again, the water for finally obtaining required temperature is temporarily stored in preheating can, it conveniently takes, directly quickly can also be heated to boiling by the water in preheating can, it is simple and compact for structure, heat makes full use of, energy saving, heating speed is fast, applied widely.
Description
Technical field
The utility model belongs to water heating system field, and in particular to a kind of multi-temperature speed heat assembly.
Background technique
In water body heating equipment, speed heat equipment is mostly used, water can be heated within a very short time to higher temperature, it will
The energy that the instant water of lower temperature consumes required for being heated up is more, and this kind of speed heat equipment is mostly without heat preservation dress
It sets, if hot water is not finished in time, thermal energy scatters and disappears comparatively fast with the time, and water temperature drop is very fast, energy dissipation is caused indirectly, and
When water consumption is larger, since the heating efficiency of speed heat equipment within a short period of time is limited, enough hot water cannot be supplied in time,
If very big hot water storage equipment, which is arranged, can occupy much room, and need a large amount of thermal insulation materials, water temperature still can with when
Between elapse and decline gradually, the water of releasing cannot reach required temperature, design a kind of hot water that can keep certain temperature for a long time
Equipment is stored, to meet a large amount of hot water use demands in the short time.
Utility model content
The purpose of this utility model is the presence of the above problem in view of the prior art, propose a kind of thermal energy rationally utilize,
Structure is simple, and heating rate is fast, the adjustable multi-temperature speed heat assembly of leaving water temperature.
The purpose of this utility model can be realized by the following technical scheme: a kind of multi-temperature speed heat assembly, comprising:
Source water tank, is internally provided with partition, and source water cavity side is divided into source water cavity and water level chamber, the source by the partition
Water cavity bottom is provided with the first flow pipe for being connected to water level bottom of chamber portion, is provided with heat exchanger in the source water cavity;
Preheating can, position are lower than source water tank, and water level bottom of chamber portion is provided with the second flow pipe and is connected to preheating can, institute
It states preheating can and is provided with the first heat exchanger tube and the second heat exchanger tube being connected to heat exchanger;
Heating tube, the preheating can are provided with third flow pipe and are connected to heating bottom of the tube.
In a kind of above-mentioned multi-temperature speed heat assembly, it is provided on first flow pipe and is sent to the water in the water cavity of source
First water pump of water level chamber.
In a kind of above-mentioned multi-temperature speed heat assembly, it is provided on second flow pipe from water level chamber and leads to preheating can
Check valve.
In a kind of above-mentioned multi-temperature speed heat assembly, it is provided on the third flow pipe and is sent to the water in preheating can
Second water pump of heating tube.
In a kind of above-mentioned multi-temperature speed heat assembly, the heating tube is longitudinally disposed and water flow inside direction is from lower past
On.
In a kind of above-mentioned multi-temperature speed heat assembly, it is provided at the top of the heating tube and is connected to the intracavitary steam of water level
Pipe.
In a kind of above-mentioned multi-temperature speed heat assembly, the heating tube side is provided with the recirculated water for being connected to preheating can
It manages, is provided with the first outlet pipe in the heating tube, is provided with water outlet on first outlet pipe.
In a kind of above-mentioned multi-temperature speed heat assembly, the water being provided in control heating tube on the circulating water pipe is flowed into
First solenoid valve of preheating can.
In a kind of above-mentioned multi-temperature speed heat assembly, the second water outlet for being connected to water outlet is provided on the preheating can
It manages, is provided with second solenoid valve on second outlet pipe.
In a kind of above-mentioned multi-temperature speed heat assembly, it is provided on first heat exchanger tube and is sent to the water in preheating can
The third water pump of heat exchanger, the water in the heat exchanger flow to preheating can by the second heat exchanger tube.
The utility model is kept in using by the water after preheating to preheating can, then the water in preheating can is passed through in the water cavity of source
Heat exchanger carry out heat exchange, the water for finally obtaining required temperature is temporarily stored in preheating can, is conveniently taken, can also be directly fast
Water in preheating can is heated to boiling by speed, obtains boiling water from the first water outlet pipe part, and simple and compact for structure, heat makes full use of,
Energy saving, heating speed is fast, applied widely.
Detailed description of the invention
Fig. 1 is a kind of multi-temperature speed heat assembly of the utility model.
In figure, source water tank 1, partition 2, source water cavity 3, water level chamber 4, the first flow pipe 5, heat exchanger 6, preheating can 7, second
Flow pipe 8, the first heat exchanger tube 9, the second heat exchanger tube 10, heating tube 11, third flow pipe 12, the first water pump 13, check valve 14, the
Two water pumps 15, steam pipe 16, circulating water pipe 17, the first outlet pipe 18, water outlet 19, the first solenoid valve 20, the second outlet pipe 21,
Second solenoid valve 22, third water pump 23.
Specific embodiment
It is specific embodiment of the utility model and in conjunction with attached drawing below, the technical solution of the utility model is made further
Description, but the utility model is not limited to these examples.
As shown in Figure 1, a kind of multi-temperature speed heat assembly, comprising:
Source water tank 1 is internally provided with partition 2, and water cavity 3 side in source is divided into source water cavity 3 and water level chamber 4 by the partition 2,
3 bottom of source water cavity is provided with the first flow pipe 5 for being connected to 4 bottom of water level chamber, is provided with heat exchange in the source water cavity 3
Device 6;
Preheating can 7, position are lower than source water tank 1, and 4 bottom of water level chamber is provided with the second flow pipe 8 and is connected to preheating
Tank 7, the preheating can 7 are provided with the first heat exchanger tube 9 and the second heat exchanger tube 10 being connected to heat exchanger 6;
Heating tube 11, the preheating can 7 are provided with third flow pipe 12 and are connected to 11 bottom of heating tube.
The source water cavity 3 of 2 top of partition is connected to water level chamber 4, and the water in source water cavity 3 enters water via the first flow pipe 5
When streamflow in the chamber 4 of position is greater than the water from water level chamber 4 via the outflow of the second flow pipe 8, extra water is out of water level chamber 4
Partition 2 is crossed to flow back into source water cavity 3, when water consumption is smaller, it is extra it is waterborne it is lower constantly recycled, reduce dead angle, keep away
Exempt from microbial growth, guarantee water quality, the water in preheating can 7 is flow in heat exchanger 6, and heat is handed over the water in source water cavity 3
It changes, by the near required temperature of water temperature in preheating can 7, which can be preheated the water in source water cavity 3, carried out
Higher temperature can be rapidly reached during speed heat, heating tube 11 uses plated film quartz ampoule, and electric heating conversion efficiency is high, corrosion-resistant, hot
Chemical stabilization, quick heating, service life be long in use, sanitation and hygiene, 7 in preheating can in for keeping in preheated water, can
Larger amount of warm water is taken with direct convenience, preheated water time consumed by being heated to boiling via heating tube 11 is short,
Little energy can satisfy and take more boiling water within a short period of time.
Preferably, the first water pump 13 that the water in source water cavity 3 is sent to water level chamber 4 is provided on first flow pipe 5.
Water in source water tank 1 is extracted out from bottom and is sent to water level chamber from 4 bottom of water level chamber using the first flow pipe 5 by the first water pump 13
In 4, mode of movement clean and effective.
Preferably, the check valve 14 for leading to preheating can 7 from water level chamber 4 is provided on second flow pipe 8.Due to source water
The position of case 1 is higher than preheating can 7, and water flows to preheating can 7 along the second flow pipe 8 under the effect of gravity, and check valve 14 can be to prevent
Aqueous reflux when in sealing position chamber 4 without enough water in preheating can 7, total system are stable.
Preferably, the second water pump that the water in preheating can 7 is sent to heating tube 11 is provided on the third flow pipe 12
15.To reach speed heat effect, heating tube 11 is set as longer thinner pipeline, and the water in preheating can 7 is needed by the second water pump
15 just have the heated pipe 11 of enough pressure currents, and whole heating equipment is compact-sized, occupies little space.
Preferably, the heating tube 11 is longitudinally disposed and water flow inside direction is from the bottom up.From 11 bottom of heating tube into
Water can prevent water since gravity flow velocity is too fast, and water can reach boiling when flowing out from 11 upper end of heating tube, guarantee water outlet
Temperature.
Preferably, the steam pipe 16 being connected in water level chamber 4 is provided at the top of the heating tube 11.Heating tube 11 carries out water
Body generates steam when heating, and steam, which is drained into water level chamber 4, can preheat the water in water level chamber 4, and energy is rationally sharp
With reduction waste also avoids high-temperature steam discharge bring security risk.
Preferably, 11 side of heating tube is provided with the circulating water pipe 17 for being connected to preheating can 7, in the heating tube 11
It is provided with the first outlet pipe 18, is provided with water outlet 19 on first outlet pipe 18.When the water temperature in preheating can 7 does not reach
When setting value, the water in preheating can 7 is constantly exchanged via circulating water pipe 17 with preheating can 7, until the water temperature in preheating can 7 reaches
Setting value, the boiling water in heating tube 11 flow to water outlet 19 by the first outlet pipe 18, and principle is simple, compact-sized.
Preferably, the water being provided on the circulating water pipe 17 in control heating tube 11 flows into the first electromagnetism of preheating can 7
Valve 20.When the water temperature of preheating can 7 does not reach setting value, solenoid valve is opened, and the water in heating tube 11 and preheating can 7 is through too long
Temperature increases after the circulation of time, and solenoid valve is closed, and controls simple and convenient, fast response time, avoids temperature excessively high.
Preferably, the second outlet pipe 21 for being connected to water outlet 19, second outlet pipe are provided on the preheating can 7
Second solenoid valve 22 is provided on 21.Water in preheating can 7 is released by the second outlet pipe 21, and second solenoid valve 22 controls whether
Water outlet.
Preferably, the third water pump that the water in preheating can 7 is sent to heat exchanger 6 is provided on first heat exchanger tube 9
23, the water in the heat exchanger 6 flows to preheating can 7 by the second heat exchanger tube 10.When the water temperature over-high in preheating can 7, warp
It is fed the water by the first heat exchanger tube 9 and carries out heat exchange in heat exchanger 6 with the cold water in source water cavity 3, then pass through the second heat exchanger tube
10 return to water in preheating can 7, keep preheating can 7 in water temperature within the set range, and heat be used for in source water cavity 3
Water preheated, reduce energy dissipation.
Below according to above embodiments, the utility model a kind of working principle and process of multi-temperature speed heat assembly are described.
When producing boiled water, first the first water pump 13 is opened, the water in source water cavity 3 is drawn into via the first flow pipe 5
In water level chamber 4, be sent in preheating can 7 using equipped with the second flow pipe 8 of check valve 14, extra water cross partition 2 from
Source water cavity 3 is flowed back in water level chamber 4, the water in preheating can 7 is sent by the drive of the second water pump 15 to carrying out heating boiling in heating tube 11
It rises, adds thermogenetic steam to enter in water level chamber 4 by steam pipe 16, the water in water level chamber 4 is preheated, ebuillition of heated
Water water outlet 19 is flowed to by the first outlet pipe 18, conveniently take.
When preheating, the second water pump 15 is opened, the water in preheating water tank flows through the boiling of heating tube 11 by third flow pipe 12
It is flow back into preheating can 7 after rising from circulating water pipe 17, constantly carries out circulation until the water temperature in preheating can 7 reaches setting value, the
Circulating water pipe 17 is closed in the control of one solenoid valve 20, and principle is simple, easy to use.
When the water temperature in preheating can 7 is identical as setting value, second solenoid valve 22 is opened, and preheating water is along the second outlet pipe
21 flow to water outlet 19, conveniently take.
When the water temperature in preheating can 7, which is higher than setting, takes the temperature of water, third water pump 23 is opened, in preheating can 7
Water is transported in heat exchanger via the first heat exchanger tube 9, and with the cold water heat exchange in source water cavity 3, the water after being cooled is via second
Heat exchanger tube 10 flows back in preheating can 7, until the water temperature in preheating can 7 is down to set temperature, then is taken, and cooling rate is fast,
Heat can be used for preheating the water in source water cavity 3, reduce energy dissipation.
The utility model can complete the effect heated to water body by heating tube 11, and the water after preheating is temporarily stored in preheating can
It is interior, warm water can directly be taken by preheating can 7, can satisfy it is larger to the demand of water in the short time, can also be via changing
Heat cools down to the water in preheating can 7, can satisfy and takes demand to different temperatures water, takes and is preheated to from preheating can 7
The water of certain temperature carries out ebuillition of heated again, short the time required to heating, consumes little energy, and leaving water temperature can quickly reach boiling
Requirement, avoiding water body from repeating boiling influences quality, and water conservation while can save energy, rationally poor using high-low water level
And multiple water pumps carry out water body conveying, overall structure is simple and compact, guarantees Water quality, conveniently takes.
The specific embodiments described herein are merely examples of the spirit of the present invention.The utility model institute
Belonging to those skilled in the art can make various modifications or additions to the described embodiments or using similar
Mode substitute, but without departing from the spirit of the present application or beyond the scope of the appended claims.
Claims (10)
1. a kind of multi-temperature speed heat assembly characterized by comprising
Source water tank, is internally provided with partition, and source water cavity side is divided into source water cavity and water level chamber, the source water cavity by the partition
Bottom is provided with the first flow pipe for being connected to water level bottom of chamber portion, is provided with heat exchanger in the source water cavity;
Preheating can, position are lower than source water tank, and water level bottom of chamber portion is provided with the second flow pipe and is connected to preheating can, described pre-
Hot tank is provided with the first heat exchanger tube and the second heat exchanger tube being connected to heat exchanger;
Heating tube, the preheating can are provided with third flow pipe and are connected to heating bottom of the tube.
2. a kind of multi-temperature speed heat assembly according to claim 1, which is characterized in that be provided on first flow pipe
Water in the water cavity of source is sent to the first water pump of water level chamber.
3. a kind of multi-temperature speed heat assembly according to claim 1, which is characterized in that be provided on second flow pipe
Lead to the check valve of preheating can from water level chamber.
4. a kind of multi-temperature speed heat assembly according to claim 1, which is characterized in that be provided on the third flow pipe
Water in preheating can is sent to the second water pump of heating tube.
5. a kind of multi-temperature speed heat assembly according to claim 1, which is characterized in that the heating tube is longitudinally disposed and interior
Portion's water (flow) direction is from the bottom up.
6. a kind of multi-temperature speed heat assembly according to claim 1, which is characterized in that the company of being provided at the top of the heating tube
Pass to the intracavitary steam pipe of water level.
7. a kind of multi-temperature speed heat assembly according to claim 1, which is characterized in that the heating tube side is provided with company
The circulating water pipe of preheating can is passed to, the first outlet pipe is provided in the heating tube, is provided with water outlet on first outlet pipe
Mouthful.
8. a kind of multi-temperature speed heat assembly according to claim 7, which is characterized in that be provided with control on the circulating water pipe
Water in heating tube processed flows into the first solenoid valve of preheating can.
9. a kind of multi-temperature speed heat assembly according to claim 8, which is characterized in that be provided with connection on the preheating can
To the second outlet pipe of water outlet, second solenoid valve is provided on second outlet pipe.
10. a kind of multi-temperature speed heat assembly according to claim 1, which is characterized in that be arranged on first heat exchanger tube
There is the third water pump that the water in preheating can is sent to heat exchanger, the water in the heat exchanger is pre- by the second heat exchanger tube flow direction
Hot tank.
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CN201821030286.8U CN208419180U (en) | 2018-07-02 | 2018-07-02 | A kind of multi-temperature speed heat assembly |
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CN201821030286.8U CN208419180U (en) | 2018-07-02 | 2018-07-02 | A kind of multi-temperature speed heat assembly |
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Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN108870724A (en) * | 2018-07-02 | 2018-11-23 | 宁波云川环保科技有限公司 | A kind of multi-temperature speed heat assembly |
CN110398056A (en) * | 2019-07-29 | 2019-11-01 | 南京酷冷节能科技有限公司 | Separate the pre-heated electromagnetic induction high temperature water heating apparatus of water tank and its control method |
-
2018
- 2018-07-02 CN CN201821030286.8U patent/CN208419180U/en active Active
Cited By (3)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN108870724A (en) * | 2018-07-02 | 2018-11-23 | 宁波云川环保科技有限公司 | A kind of multi-temperature speed heat assembly |
CN110398056A (en) * | 2019-07-29 | 2019-11-01 | 南京酷冷节能科技有限公司 | Separate the pre-heated electromagnetic induction high temperature water heating apparatus of water tank and its control method |
CN110398056B (en) * | 2019-07-29 | 2020-12-18 | 江苏天广云尚节能科技有限公司 | Partitioned water tank preheating type electromagnetic induction high-temperature water heating device and control method thereof |
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