CN214406540U - Integrated form system of recharging - Google Patents
Integrated form system of recharging Download PDFInfo
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- CN214406540U CN214406540U CN202120563854.6U CN202120563854U CN214406540U CN 214406540 U CN214406540 U CN 214406540U CN 202120563854 U CN202120563854 U CN 202120563854U CN 214406540 U CN214406540 U CN 214406540U
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- recharging
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- Y—GENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
- Y02—TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
- Y02E—REDUCTION OF GREENHOUSE GAS [GHG] EMISSIONS, RELATED TO ENERGY GENERATION, TRANSMISSION OR DISTRIBUTION
- Y02E10/00—Energy generation through renewable energy sources
- Y02E10/10—Geothermal energy
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Abstract
The utility model belongs to the technical field of geothermal well production, concretely relates to integrated form recharging system, including recharging unit and container, the recharging unit is installed in the container, the container includes lid and bottom plate, it is lower extreme open-ended box to go up the lid, the recharging unit is installed on the bottom plate, it sets up on the bottom plate to go up lid detachable, it is provided with into water and takes over, goes out water and take over and blowdown takeover to go up the lid. The recharging unit is arranged in the container, and the damping layer is arranged at the bottom of the recharging unit, so that the safety of the recharging system in the transportation process is ensured, the equipment work of site construction is reduced, the arrangement is convenient, and the sound insulation protection effect is realized; in addition, a heat-insulating layer is arranged in the container, so that the cold-resistant effect of the recharge system in winter is ensured.
Description
Technical Field
The utility model belongs to the technical field of geothermal well production, concretely relates to integrated form recharge system.
Background
Geothermal water is geothermal energy which is stored underground and can be developed and utilized to form geothermal resources. The main body for geothermal exploitation is geothermal carrier, i.e. geothermal fluid, but the skeleton of the heat storage also stores considerable heat. In order to maintain the heat storage pressure, fully utilize energy and reduce the pollution of direct discharge of geothermal fluid to the environment, the geothermal water after utilization is reinjected into the heat storage through the recharging well. The geothermal water is mainly characterized by high chloride ion content, high mineralization degree, various mineral components, gases such as nitrogen sulfide, natural gas, carbon dioxide, dissolved oxygen, a small amount of hydrocarbon oil and other complex chemical components, and in order to ensure that the damage to equipment or air blockage caused during recharging is reduced, certain recharging equipment such as filtering equipment, exhaust equipment and the like needs to be arranged to treat the recharging geothermal water.
The existing geothermal tail water recharging treatment equipment has the following problems that (1) the equipment is large in size, large in quantity and inconvenient to transport; (2) the floor area is large due to the complexity of the connecting pipelines; (3) when the recharging equipment is arranged outdoors, in order to ensure the temperature of the recharging water, a heat-insulating material needs to be arranged, the heat-insulating effect is poor, and larger noise can be generated.
SUMMERY OF THE UTILITY MODEL
The utility model aims at providing an integrated recharging system, which is characterized in that a recharging unit is arranged in a container, and a damping layer is arranged at the bottom of the recharging unit, so that the recharging system can be conveniently transported, the equipment work of site construction is reduced, and the arrangement is convenient and the sound insulation protection effect is realized; in addition, a heat-insulating layer is arranged in the container, so that the cold-resistant effect of the recharge system in winter is ensured.
In order to achieve the above purpose, the utility model adopts the following technical scheme:
the integrated recharging system comprises a recharging unit and a container, wherein the recharging unit is arranged in the container, the container comprises an upper cover body and a bottom plate, the upper cover body is a box body with an opening at the lower end, the recharging unit is arranged on the bottom plate, the upper cover body is detachably arranged on the bottom plate, and the upper cover body is provided with a water inlet connecting pipe, a water outlet connecting pipe and a sewage discharge connecting pipe. The recharging unit is arranged in the container, so that equipment work of site construction is reduced, arrangement is convenient, and a sound insulation protection effect is achieved; in addition, the container structure is set to be in a mode that the upper cover body is matched with the bottom plate, so that the aim of assembling the recharging unit on the bottom plate and matching the upper cover body and the bottom plate together is fulfilled, and the container is convenient and efficient.
The technical proposal of the utility model is also that: and a damping layer is arranged between the recharging unit and the bottom plate. A damping layer is arranged between the recharging unit and the bottom plate, and the recharging unit is protected in the transportation process.
The technical proposal of the utility model is also that: and the upper cover body and the bottom plate are both provided with heat-insulating layers. The heat-insulating layer is arranged in the container, so that the cold-resistant effect of the recharge system in winter is ensured.
The technical proposal of the utility model is also that: the upper cover body is provided with a safety door. And the safety door is arranged for overhauling the recharging unit.
The technical proposal of the utility model is also that: the recharging unit comprises a base, wherein a sand remover, a coarse filter, a fine filter and an exhaust tank are sequentially arranged on the base according to the recharging direction, and the sand remover, the coarse filter, the fine filter and the exhaust tank are arranged in a collinear manner;
the water inlet of the desander is connected with the water inlet connecting pipe on the upper cover body, the water outlet of the desander is connected with the water inlet of the coarse filter through a first connecting pipe, the water outlet of the coarse filter is connected with the water inlet of the fine filter through a second connecting pipe, the water outlet of the fine filter is connected with the water inlet of the exhaust tank through a third connecting pipe, the water outlet of the exhaust tank is connected with the water outlet connecting pipe through a fourth connecting pipe, the fourth connecting pipe is provided with a pressure pump, and the fourth connecting pipe is provided with a sensor module;
and the sand remover drain outlet, the coarse filter drain outlet, the fine filter drain outlet and the drain outlet of the exhaust tank are connected with a drain connecting pipe on the upper cover body through drain pipes. The sensor module is used for detecting the pressure, the temperature and the recharging flow rate of the outlet water of the recharging unit.
The technical proposal of the utility model is also that: the first adapter tube, the second adapter tube and the third adapter tube are all door-shaped pipelines. The first adapter pipe, the second adapter pipe and the third adapter pipe are door-shaped pipelines and are arranged on the same side of the two devices as connecting pipelines, so that the whole arrangement is more compact, and the occupied area is smaller.
The technical proposal of the utility model is also that: the sewage discharge pipe is obliquely arranged according to the sewage discharge direction. The sewage discharge pipe is obliquely designed along the sewage discharge direction, so that the sewage and silt generated by discharge are favorably discharged.
The technical proposal of the utility model is also that: adjusting gaskets are arranged between the water inlet of the sand remover and the water inlet connecting pipe, between the fourth switching pipe and the water outlet connecting pipe, and between the outlet of the sewage discharge pipe and the sewage discharge connecting pipe.
The technical proposal of the utility model is also that: the recharging unit is also provided with an automatic control device, the automatic control device is installed on the base, and the automatic control device is electrically connected with the sensor module and the pressure pump. The automatic control device is used for displaying the pressure, the temperature and the recharging flow rate of the outlet water of the recharging unit, and when the recharging pressure and the recharging flow rate exceed limit values, the automatic control device automatically adjusts the working efficiency of the pressurizing pump so as to meet the limit values.
The utility model has the advantages that:
(1) the recharging unit is arranged in the container, and the damping layer is arranged at the bottom of the recharging unit, so that the recharging system can be conveniently transported, the equipment work of site construction is reduced, and the recharging unit is convenient to arrange and plays a role in sound insulation protection; (2) the container is internally provided with a heat-insulating layer, so that the cold-resistant effect of the recharging system in winter is ensured; (3) the sand remover, the coarse filter, the fine filter and the exhaust tank are arranged in a collinear manner, and the first adapter pipe, the second adapter pipe and the third adapter pipe are arranged to be door-shaped pipelines, so that the whole arrangement is more compact, and the occupied area is smaller.
Drawings
Fig. 1 is a schematic structural diagram of the integrated recharge system of the present invention;
fig. 2 is a schematic view of an external connection structure of the integrated recharge system of the present invention;
FIG. 3 is a schematic structural view of the recharging unit of the present invention;
FIG. 4 is a right side view of the recharging unit of the present invention;
in the figure: the device comprises a recharging unit 1, a container 2, an upper cover body 2-1, a bottom plate 2-2, a water inlet connecting pipe 2-3, a water outlet connecting pipe 2-4, a sewage discharging connecting pipe 2-5, a safety door 2-6, a damping layer 3, a base 4, a desander 5, a coarse filter 6, a fine filter 7, an exhaust tank 8, a first connecting pipe 9, a second connecting pipe 10, a third connecting pipe 11, a fourth connecting pipe 12, a pressure pump 13, a sensor module 14, a sewage discharging pipe 15, an adjusting gasket 16 and an automatic control device 17.
Detailed Description
The invention is further described below with reference to the drawings and the specific embodiments, but the invention is not limited to the embodiments described.
As shown in fig. 1-4, an integrated recharging system comprises a recharging unit 1 and a container 2, wherein the recharging unit 1 is installed in the container 2, the container 2 comprises an upper cover body 2-1 and a bottom plate 2-2, the upper cover body 2-1 is a box body with an opening at the lower end, the recharging unit 1 is installed on the bottom plate 2-2, the upper cover body 2-1 is detachably arranged on the bottom plate 2-2, and the upper cover body 2-1 is provided with a water inlet connecting pipe 2-3, a water outlet connecting pipe 2-4 and a sewage discharging connecting pipe 2-5.
And a damping layer 3 is arranged between the recharging unit 1 and the bottom plate 2-2.
The upper cover body 2-1 and the bottom plate 2-2 are both provided with heat preservation layers.
The upper cover body 2-1 is provided with a safety door 2-6.
The recharging unit 1 comprises a base 4, a sand remover 5, a coarse filter 6, a fine filter 7 and an exhaust tank 8 are sequentially arranged on the base 4 according to the recharging direction, and the sand remover 5, the coarse filter 6, the fine filter 7 and the exhaust tank 8 are arranged in a collinear manner;
the water inlet of the desander is connected with the water inlet connecting pipe 2-3 on the upper cover body 2-1, the water outlet of the desander 5 is connected with the water inlet of the coarse filter 6 through a first connecting pipe 9, the water outlet of the coarse filter 6 is connected with the water inlet of the fine filter 7 through a second connecting pipe 10, the water outlet of the fine filter 7 is connected with the water inlet of the exhaust tank 8 through a third connecting pipe 11, the water outlet of the exhaust tank 8 is connected with the water outlet connecting pipe 2-4 through a fourth connecting pipe 12, a pressure pump 13 is arranged on the fourth connecting pipe 12, and a sensor module 14 is arranged on the fourth connecting pipe 12.
The sewage outlet of the sand remover 5, the sewage outlet of the coarse filter 6, the sewage outlet of the fine filter 7 and the sewage outlet of the exhaust tank 8 are connected with the sewage connecting pipe 2-5 on the upper cover body 2-1 through the sewage pipe 15.
The first adapter tube 9, the second adapter tube 10 and the third adapter tube 11 are all door-shaped pipelines.
The sewage discharge pipe 15 is obliquely arranged according to the sewage discharge direction.
Adjusting gaskets 16 are arranged between the water inlet of the sand remover 5 and the water inlet connecting pipe 2-3, between the fourth adapter pipe 12 and the water outlet connecting pipe 2-4, and between the outlet of the sewage discharge pipe 15 and the sewage discharge connecting pipe 2-5.
The recharging unit 1 is further provided with an automatic control device 17, the automatic control device 17 is installed on the base 4, and the automatic control device 17 is electrically connected with the sensor module 14 and the pressure pump 13.
In actual operation, the recharging unit 1 is assembled on the bottom plate 2-2, then the upper cover body 2-1 is buckled on the bottom plate 2-2 and fixed together, the water inlet side of the desander 5 is hermetically connected with the water inlet connecting pipe 2-3, the fourth switching pipe 12 is hermetically connected with the water outlet connecting pipe 2-4, and the outlet of the sewage discharge pipe 15 is hermetically connected with the sewage discharge connecting pipe 2-5 through the adjusting gasket 16, so that assembly can be completed, and the recharging unit is convenient and rapid.
The automatic control device 17 obtains the outlet water temperature, pressure and recharging flow information of the recharging unit 1 through the data collected by the monitoring sensor module 14, and when the recharging pressure and the recharging flow exceed the limit values, the automatic control device 17 automatically adjusts the working efficiency of the pressure pump 13 to meet the limit values.
Finally, it should be noted that the above embodiments are only used for illustrating the technical solutions of the present invention and are not limited. Although the present invention has been described in detail with reference to the embodiments, those skilled in the art will understand that modifications and equivalent substitutions can be made to the technical solution of the present invention without departing from the spirit and scope of the technical solution of the present invention, and all of them shall fall within the scope of the claims of the present invention.
Claims (9)
1. An integrated form recharging system, includes recharging unit (1) and container (2), install in container (2) recharging unit (1), its characterized in that: the container (2) comprises an upper cover body (2-1) and a bottom plate (2-2), the upper cover body (2-1) is a box body with an opening at the lower end, the recharging unit (1) is installed on the bottom plate (2-2), the upper cover body (2-1) is detachably arranged on the bottom plate (2-2), and the upper cover body (2-1) is provided with a water inlet connecting pipe (2-3), a water outlet connecting pipe (2-4) and a sewage discharging connecting pipe (2-5).
2. The integrated recharge system of claim 1, wherein: and a damping layer (3) is arranged between the recharging unit (1) and the bottom plate (2-2).
3. The integrated recharge system of claim 1, wherein: the upper cover body (2-1) and the bottom plate (2-2) are both provided with heat insulation layers.
4. The integrated recharge system of claim 1, wherein: the upper cover body (2-1) is provided with a safety door (2-6).
5. The integrated recharge system according to any of claims 1 to 4, wherein: the recharging unit (1) comprises a base (4), a sand remover (5), a coarse filter (6), a fine filter (7) and an exhaust tank (8) are sequentially arranged on the base (4) according to the recharging direction, and the sand remover (5), the coarse filter (6), the fine filter (7) and the exhaust tank (8) are arranged in a collinear manner;
the water inlet of the desander (5) is connected with the water inlet connecting pipe (2-3) on the upper cover body (2-1), the water outlet of the desander (5) is connected with the water inlet of the coarse filter (6) through a first switching pipe (9), the water outlet of the coarse filter (6) is connected with the water inlet of the fine filter (7) through a second switching pipe (10), the water outlet of the fine filter (7) is connected with the water inlet of the exhaust tank (8) through a third switching pipe (11), the water outlet of the exhaust tank (8) is connected with the water outlet connecting pipe (2-4) through a fourth switching pipe (12), a pressure pump (13) is arranged on the fourth switching pipe (12), and a sensor module (14) is arranged on the fourth switching pipe (12);
and the sewage outlet of the sand remover (5), the sewage outlet of the coarse filter (6), the sewage outlet of the fine filter (7) and the sewage outlet of the exhaust tank (8) are connected with the sewage outlet connecting pipe (2-5) on the upper cover body (2-1) through a sewage outlet pipe (15).
6. The integrated recharge system of claim 5, wherein: the first adapter tube (9), the second adapter tube (10) and the third adapter tube (11) are all door-shaped pipelines.
7. The integrated recharge system of claim 5, wherein: the sewage discharge pipe (15) is obliquely arranged according to the sewage discharge direction.
8. The integrated recharge system of claim 5, wherein: adjusting gaskets (16) are arranged between the water inlet of the sand remover (5) and the water inlet connecting pipe (2-3), between the fourth adapter pipe (12) and the water outlet connecting pipe (2-4) and between the outlet of the sewage discharge pipe (15) and the sewage discharge connecting pipe (2-5).
9. The integrated recharge system of claim 5, wherein: the recharging unit (1) is further provided with an automatic control device (17), the automatic control device (17) is installed on the base (4), and the automatic control device (17) is electrically connected with the sensor module (14) and the pressure pump (13).
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN202120563854.6U CN214406540U (en) | 2021-03-18 | 2021-03-18 | Integrated form system of recharging |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
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CN202120563854.6U CN214406540U (en) | 2021-03-18 | 2021-03-18 | Integrated form system of recharging |
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Publication Number | Publication Date |
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CN214406540U true CN214406540U (en) | 2021-10-15 |
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Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
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CN202120563854.6U Active CN214406540U (en) | 2021-03-18 | 2021-03-18 | Integrated form system of recharging |
Country Status (1)
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CN (1) | CN214406540U (en) |
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2021
- 2021-03-18 CN CN202120563854.6U patent/CN214406540U/en active Active
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