CN208296650U - Waste-water heat-energy recovery device - Google Patents
Waste-water heat-energy recovery device Download PDFInfo
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- CN208296650U CN208296650U CN201820406145.5U CN201820406145U CN208296650U CN 208296650 U CN208296650 U CN 208296650U CN 201820406145 U CN201820406145 U CN 201820406145U CN 208296650 U CN208296650 U CN 208296650U
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- energy recovery
- thermal energy
- recovery tube
- tube group
- water
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Abstract
The utility model relates to household bathroom accessories fields, and in particular to a kind of waste-water heat-energy recovery device, including thermal energy recovery tube group, peripheral frame, top panel and lower panel;The peripheral frame, top panel and lower panel surround a hollow shell, the thermal energy recovery tube is mounted in the shell, the peripheral frame is equipped with water inlet and water outlet, the connection corresponding with the water inlet and water outlet respectively of the inlet and outlet of the thermal energy recovery tube group;The water being flowed into the thermal energy recovery tube group uploads the thermal energy led with the trend recycling panel for being transitioned into central interior to the periphery from shell week.The waste-water heat-energy recovery device of the utility model can be recycled sufficiently, using the thermal energy of the waste water accumulated on the upper surface of heat-energy recovering apparatus plate, and the efficiency for improving heat recovery from sewage and utilizing avoids the waste of waste water thermal energy.
Description
Technical field
The utility model relates to household bathroom accessories field, and in particular to a kind of waste-water heat-energy recovery device.
Background technique
When waste-water heat-energy recovery device is mainly used for human body shower, for recycling the thermal energy for the waste water on bottom plate that trickles,
The water in the heat pipe of waste-water heat-energy recovery device is heated using the thermal energy of recycling, and the water in convection current superheater tube after heating
Carry out secondary use;When people, which tramples, to take a shower on the upper surface of heat-energy recovering apparatus plate, waste water flows down to thermal energy along human body
On the upper surface of recyclable device plate, since the temperature of the waste water at the middle part of top panel is higher, thermal energy is more, therefore, existing thermal energy
Recyclable device is that the middle section trampled in heat is provided with heat pipe, the heat of the higher waste water of middle portion temperature to recycle top panel
Can, and can not other positions other than the middle part of recycling top panel waste water thermal energy, result in heat recovery from sewage, utilize
It is insufficient, cause the waste of waste water thermal energy.
Utility model content
The purpose of the utility model is to provide a kind of waste-water heat-energy recovery devices, sufficiently to recycle, using accumulating in thermal energy
The thermal energy of waste water on the upper surface of recyclable device plate, the efficiency for improving heat recovery from sewage and utilizing avoid waste water thermal energy
Waste.
To solve the above-mentioned problems, the utility model provides a kind of waste-water heat-energy recovery device, including thermal energy recovery tube
Group, peripheral frame, top panel and lower panel;The peripheral frame, top panel and lower panel surround a hollow shell, described
Thermal energy recovery tube is mounted in the shell, and the peripheral frame is equipped with water inlet and water outlet, the thermal energy recovery tube group
Inlet and outlet respectively it is corresponding with the water inlet and water outlet connection;Be flowed into the water in the thermal energy recovery tube group with from
The trend recycling panel for being transitioned into central interior shell week to the periphery uploads the thermal energy led.
Preferably, the thermal energy recovery tube group includes the heat pipe of more parallel arrangements, the heat of more parallel arrangements
It manages on the right side of successively from the left side of shell toward shell and forms a line;Wherein, the heat pipe positioned at the left, center, right region of shell is distinguished
For left area's thermal energy recovery tube group, the area middle area's thermal energy recovery tube Zu Jiyou thermal energy recovery tube group;The thermal energy recovery tube group according to from
The area left area's thermal energy recovery tube Zu Daoyou thermal energy recovery tube group is finally led to the sequence recycling panel upload of middle area's thermal energy recovery tube group
Thermal energy.
Preferably, in left area's thermal energy recovery tube group, middle area's thermal energy recovery tube Zu Neijiyou area's thermal energy recycling
Two adjacent heat pipes are connected to by bellows in pipe group;The input end of the outermost heat pipe of left area's thermal energy recovery tube group
It is connected to water inlet, the outlet end of the innermost heat pipe of left area's thermal energy recovery tube group and right area's thermal energy recovery tube group
Outermost heat pipe input end connection, the outlet end of the innermost heat pipe of right area's thermal energy recovery tube group and it is described in
The input end of the heat pipe of area's thermal energy recovery tube group left end is connected to, the outlet of the heat pipe of middle area's thermal energy recovery tube group right end
End is connected to water outlet.
Preferably, the surrounding of the peripheral frame is slightly higher than plane locating for the top panel, the top panel
The reservoir of a upper opening is surrounded with the surrounding of the peripheral frame.
Preferably, the rear and front end of the top panel is respectively provided with a deflector, the deflector and it is described on
The side that panel is in contact is equipped with water storage step.
Preferably, draining is equipped between the surrounding of the surrounding and the peripheral frame of the top panel and lower panel
Gap.
Preferably, the width in the draining gap is 0.2mm~0.3mm.
Preferably, the width in the draining gap is 0.25mm.
Preferably, the upper surface of the top panel is equipped with the support construction to raise upward.
Preferably, the support construction is the raised line or round bump of multiple interphase distributions.
The waste-water heat-energy recovery device of the utility model, in the hollow shell that peripheral frame, top panel and lower panel surround
It is provided with thermal energy recovery tube group in vivo, since the water energy being flowed into thermal energy recovery tube group is enough to be transitioned into the periphery from shell week
The trend recycling panel of central interior uploads the thermal energy led, and thermal energy recovery tube group priority reclamation is enabled to accumulate in top panel
Week to the periphery on the lower waste water of temperature thermal energy, then followed by recycling accumulate in the temperature in the central region of top panel compared with
The thermal energy of high waste water improves the recovery efficiency of waste water thermal energy, together to realize the heat recovery from sewage of different temperatures gradient
When, it can also be achieved the purpose to the water being flowed into thermal energy recovery tube group from low temperature to high-temperature heating, to improve to greatest extent
The temperature of the water finally flowed out out of thermal energy recovery tube group, to make full use of the waste water thermal energy being recovered.
Detailed description of the invention
Fig. 1 is the waste-water heat-energy recovery device decomposition texture schematic diagram of one preferred embodiment of the utility model;
Fig. 2 is that the waste-water heat-energy recovery device of one preferred embodiment of the utility model is gone out the structural representation after lower panel
Figure;
Fig. 3 is the surface structure schematic diagram of the waste-water heat-energy recovery device of one preferred embodiment of the utility model.
Wherein, 1, peripheral frame;10, shell;2, thermal energy recovery tube group;20, heat pipe;21, bellows;22, left area's thermal energy
Recovery tube group;23, right area's thermal energy recovery tube group;24, middle area's thermal energy recovery tube group;3, top panel;4, lower panel;5, water inlet;
6, water outlet;7, reservoir;8, deflector.
Specific embodiment
With reference to the accompanying drawings and examples, specific embodiment of the present utility model is described in further detail.Below
Embodiment is not intended to limit the scope of the present invention for illustrating the utility model.
In conjunction with shown in Fig. 1 to Fig. 3, a kind of heat recovery from sewage dress of the utility model embodiment is schematically showed
It sets comprising peripheral frame 1, top panel 3, lower panel 4 and thermal energy recovery tube group 2;Wherein, peripheral frame 1, top panel 3 and under
Panel 4 surrounds a hollow flat shell 10, and thermal energy recovery tube group 2 is set in the shell 10, and peripheral frame 1 is equipped with
Water inlet 5 and water outlet 6, the connection corresponding with water inlet 5 and water outlet 6 respectively of the inlet and outlet of thermal energy recovery tube group 2;It flows into
The heat led is uploaded with the trend recycling panel for being transitioned into central interior to the periphery from shell week to the water in thermal energy recovery tube group 2
Energy.
Since the water energy being flowed into thermal energy recovery tube group 2 from water inlet 5 is enough to be transitioned into center to the periphery from shell week
Internal trend recycling panel uploads the thermal energy led, and 2 priority reclamation of thermal energy recovery tube group is enabled to accumulate in the week of top panel 3
The thermal energy of the lower waste water of temperature on to the periphery, then followed by recycling accumulate in the temperature in the central region of top panel 3 compared with
The thermal energy of high waste water improves the recovery efficiency of waste water thermal energy, together to realize the heat recovery from sewage of different temperatures gradient
When, it can also be achieved the purpose to the water being flowed into thermal energy recovery tube group 2 from low temperature to high-temperature heating, to improve to greatest extent
The temperature of the water finally flowed out out of thermal energy recovery tube group 2, to make full use of the waste water thermal energy being recovered.
Specifically, as shown in Fig. 2, the heat pipe 20 of thermal energy recovery tube group 2 including more parallel arrangements, more parallel arrangements
Heat pipe 20 successively forms a line from the left side of shell 10 toward the right side of shell 10;Wherein, positioned at the left, center, right region of shell 10
Heat pipe 20 be respectively left area's thermal energy recovery tube group 22, the area middle area's thermal energy recovery tube Zu24Ji You thermal energy recovery tube group 23;Thermal energy
Recovery tube group 2 is according to from the area left area's thermal energy recovery tube Zu22Dao You thermal energy recovery tube group 23 finally to middle area's thermal energy recovery tube group 23
Sequence recycling top panel 3 on the thermal energy that conducts, with reach priority reclamation accumulate in week of top panel 3 to the periphery on temperature compared with
Then the thermal energy of low waste water accumulates in the thermal energy of the higher waste water of temperature in the central region of top panel 3 followed by recycling, and same
When achieve the purpose that the water being flowed into thermal energy recovery tube group 2 from low temperature to high-temperature heating.
Please continue to refer to shown in Fig. 2, in left area's thermal energy recovery tube group 22, middle 24 area Nei Jiyou of area's thermal energy recovery tube group heat
Two adjacent heat pipes 20 are connected to by bellows 21 in energy recovery tube group 23;The outermost heat of left area's thermal energy recovery tube group 22
The input end of pipe 20 is connected to water inlet 5, the outlet end of the innermost heat pipe 20 of left area's thermal energy recovery tube group 22 and right area heat
The input end connection of the outermost heat pipe 20 of energy recovery tube group 23, the innermost heat pipe 20 of right area's thermal energy recovery tube group 23
Outlet end is connected to the input end of the heat pipe 20 of middle 24 left end of area's thermal energy recovery tube group, middle 24 right end of area's thermal energy recovery tube group
The outlet end of heat pipe 20 be connected to water outlet 6.
Water to be heated flows into left area's thermal energy recovery tube group 22 from water inlet 5 first, and from left to right followed by a left side
Each heat pipe 20 of area's thermal energy recovery tube group 22, to recycle the heat for accumulating in the 3 lower waste water of left area temperature of top panel
Can, so that the coolant-temperature gage in heat pipe 20 gradually rises;It is flowed into right area's thermal energy recovery tube group 23 later, and from right to left successively
Each heat pipe 20 of right area's thermal energy recovery tube group 23 is flowed through, it is lower useless to accumulate in 3 left area temperature of top panel with recycling
The thermal energy of water, at this point, the temperature of the water in heat pipe 20 is maintained and further increases;Finally it is flowed into middle area's thermal energy recovery tube
In group 24, and each heat pipe 20 in middle area's thermal energy recovery tube group 24 is flowed through from left to right, accumulated in top panel 3 with recycling
The thermal energy of the higher waste water of portion's regional temperature, at this point, the coolant-temperature gage in heat pipe 20 will increase further, to improve to greatest extent
The temperature of the water finally flowed out out of thermal energy recovery tube group 2, to make full use of the waste water thermal energy being recovered.
Shown in referring to figure 3., the surrounding of peripheral frame 1 is slightly higher than plane locating for top panel 3, so that top panel 3 and outer
The surrounding of peripheral frame frame 1 surrounds the reservoir 7 of a upper opening;The purpose being arranged in this way is to collect to flow to top panel 3 as far as possible
On waste water prevent waste water on top panel 3 to be lost in favor of sufficiently recycling the thermal energy of the waste water on top panel 3 too fast, cause
And have little time to recycle the thermal energy of waste water.
Preferably, it is respectively provided with a deflector 8 in the rear and front end of top panel 3, deflector 8 is in contact with top panel 3
Side is equipped with water storage step, and to form complete reservoir 7, deflector 8 is conducive to that waste water is guided to be flowed into reservoir, can
Relatively quickly waste water is converged in reservoir 7, in favor of the recycling of waste water thermal energy.
Meanwhile draining gap is equipped between the surrounding of the surrounding and peripheral frame of top panel 3 and lower panel 41, work as water storage
After waste water in pond 7 gathers certain depth, the pressure of waste water will overcome surface tension of the waste water in draining gap, and
Reservoir 7 is discharged from draining gap, updated in reservoir 7 to reach to the waste water vacating space of thermal energy is not recovered
The purpose of waste water, in favor of the lasting recycling of waste water thermal energy.
Preferably, the width for draining gap is 0.2mm~0.3mm, and draining gap is narrow, cannot exclude reservoir 7 in time
Interior waste water, draining gap is wide, causes the waste water in reservoir 7 to exclude too fast, both of which is unfavorable for waste water thermal energy
Lasting recycling;Optimal, the width for draining gap is 0.25mm, lasting recycling of the width most beneficial for waste water thermal energy.
Preferably, the support construction to raise upward is additionally provided on the upper surface of top panel 3;Support construction can be by people's
Sole supports, and sole is avoided to be soaked in the waste water of reservoir 7, while support construction can also tangle the hair of human body,
It prevents hair from entering in draining gap, draining gap is made to be blocked;Support construction is the raised line or circle of multiple interphase distributions
Shape convex block, to reach optimal effect.
The above is only the preferred embodiment of the utility model, it is noted that for the common skill of the art
For art personnel, without deviating from the technical principle of the utility model, several improvement and replacement can also be made, these change
It also should be regarded as the protection scope of the utility model into replacement.
Claims (10)
1. a kind of waste-water heat-energy recovery device, which is characterized in that including thermal energy recovery tube group, peripheral frame, top panel and below
Plate;The peripheral frame, top panel and lower panel surround a hollow shell, and the thermal energy recovery tube is mounted on the shell
It is interior, the peripheral frame be equipped with water inlet and water outlet, the inlet and outlet of the thermal energy recovery tube group respectively with it is described into
The mouth of a river and the corresponding connection of water outlet;The water in the thermal energy recovery tube group is flowed into be transitioned into center to the periphery from shell week
The trend recycling panel in portion uploads the thermal energy led.
2. waste-water heat-energy recovery device according to claim 1, which is characterized in that the thermal energy recovery tube group includes more
The heat pipe of parallel arrangement, the heat pipe of more parallel arrangements successively from the left side of shell toward shell on the right side of form a line;Wherein, position
Heat pipe in the left, center, right region of shell is respectively left area's thermal energy recovery tube group, middle area's thermal energy recovery tube Zu Jiyou area's thermal energy time
Closed tube group;The thermal energy recovery tube group is according to from the area left area's thermal energy recovery tube Zu Daoyou thermal energy recovery tube group finally to middle area's thermal energy
The sequence recycling panel of recovery tube group uploads the thermal energy led.
3. waste-water heat-energy recovery device according to claim 2, which is characterized in that in left area's thermal energy recovery tube group,
Two adjacent heat pipes are connected to by bellows in the area middle area's thermal energy recovery tube Zu Neijiyou thermal energy recovery tube group;Left area's heat
The input end of the outermost heat pipe of energy recovery tube group is connected to water inlet, the innermost heat of left area's thermal energy recovery tube group
The outlet end of pipe is connected to the input end of the outermost heat pipe of right area's thermal energy recovery tube group, right area's thermal energy recovery tube
The outlet end of innermost heat pipe of group is connected to the input end of the heat pipe of middle area's thermal energy recovery tube group left end, it is described in
The outlet end of the heat pipe of area's thermal energy recovery tube group right end is connected to water outlet.
4. waste-water heat-energy recovery device according to claim 1, which is characterized in that the surrounding of the peripheral frame is slightly higher than
The surrounding of plane locating for the top panel, the top panel and the peripheral frame surrounds the reservoir of a upper opening.
5. waste-water heat-energy recovery device according to claim 4, which is characterized in that the rear and front end of the top panel is respectively set
There is a deflector, the side that the deflector is in contact with the top panel is equipped with water storage step.
6. waste-water heat-energy recovery device according to claim 4, which is characterized in that the surrounding of the top panel and lower panel
Draining gap is equipped between the surrounding of the peripheral frame.
7. waste-water heat-energy recovery device according to claim 6, which is characterized in that it is described draining gap width be
0.2mm~0.3mm.
8. waste-water heat-energy recovery device according to claim 7, which is characterized in that it is described draining gap width be
0.25mm。
9. waste-water heat-energy recovery device according to claim 4, which is characterized in that the upper surface of the top panel is equipped with
The support construction to raise upward.
10. waste-water heat-energy recovery device according to claim 9, which is characterized in that the support construction is multiple alternate
The raised line or round bump of arrangement.
Priority Applications (1)
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CN201820406145.5U CN208296650U (en) | 2018-03-23 | 2018-03-23 | Waste-water heat-energy recovery device |
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CN201820406145.5U CN208296650U (en) | 2018-03-23 | 2018-03-23 | Waste-water heat-energy recovery device |
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Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
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CN108332577A (en) * | 2018-03-23 | 2018-07-27 | 佛山市恒芯磁能科技有限公司 | Waste-water heat-energy recovery device |
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Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
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CN108332577A (en) * | 2018-03-23 | 2018-07-27 | 佛山市恒芯磁能科技有限公司 | Waste-water heat-energy recovery device |
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