CN109763626A - A kind of damp proofing of ground structure - Google Patents
A kind of damp proofing of ground structure Download PDFInfo
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- CN109763626A CN109763626A CN201711097786.3A CN201711097786A CN109763626A CN 109763626 A CN109763626 A CN 109763626A CN 201711097786 A CN201711097786 A CN 201711097786A CN 109763626 A CN109763626 A CN 109763626A
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Abstract
The present invention relates to house earth surface building fields, more particularly to a kind of damp proofing of ground structure, it is connected to the wall of base including base and vertically, the hollow condensate layer that steam is isolated is equipped with above the base, the hollow condensate layer is equipped with several support frames being vertically arranged, and is ground surface layer above the hollow condensate layer, the ground surface layer is propped up by the support frame, the hollow condensate layer is connected to a refrigeration machine, and the hollow condensate layer bottom is communicated with drainage pipeline.The moisture for rising to substrate surface from underground layer all condenses to the cold in hollow condensate layer, condensed water is discharged by drainage pipeline, prevent it from continuing ascension to ground surface layer, the setting of hollow condensate layer effectively prevent the upward evaporating-osmosis of the moisture of wetland layer to come out, it is cooled into droplet in the earth's surface with air contact surfaces, leads to the situation of ground humidity.
Description
Technical field
The present invention relates to house earth surface building fields, more specifically, it relates to a kind of damp proofing of ground structure.
Background technique
In general house, ground humidity is a kind of common problem, and the water under ground cushion in foundation soil passes through hair
Capillary action rises and vapourous water permeates up, and it is moist to make earth material, and deteriorate the humidity condition in entire room therewith;
Such case often occurs throughout the year, it is more difficult to handle, there are also outdoor impeded drainage, rooms to draw badly, density difference
When construction material does flooring, capillarity will increase, damping of ground floor is serious, hangs up one's hat very uncomfortable.Ground tide
Wet to will cause indoor timber floor and lever up, wood furniture mildew or snake, wet and slippery ground result even in occupant and slide into, fall
Wound.The occasion more demanding to ground aridity, then need efficient moisture-proof construction.
Existing Authorization Notice No. provides a kind of indoor moisture proof cracking resistance ground structure for the Chinese patent of CN206337787U,
It sequentially consists of compacting ground layer, fine sand layer, composite geo-membrane damp-proof layer, concrete hardening layer, fibrous mesh cloth, resist
Split sand finish layer;In use, on the one hand fine sand layer can be improved the flatness of compacting ground layer, while one can be played again
Determine buffer protection function, the out-of-flatness due to compacting ground layer is avoided to lead to the moisture-proof damage layer of composite geo-membrane;Composite earthwork
Film damp-proof layer can be effectively prevented moisture and permeate up, and have preferable mechanical property, when layer concrete pours on it
It can preferably be combined with concrete hardening layer;Fiber mesh layer of cloth and receipts face anticracking grout layer can effectively prevent indoor ground
There is crack in face structure;The utility model has the advantages that moisture-proof cracking resistance.
But the utility model only passes through composite geo-membrane damp-proof layer and prevents underground moisture from permeating up, but underground moisture is long
Time, which dissipates, does not go, and easily in ground layer mould growth, and foundation structure is caused gradually to damage infiltration, more demanding to ground aridity
Occasion, need more effective moisture-proof construction.
Summary of the invention
The purpose of the present invention is to provide a kind of damp proofing of ground structure, have the advantages that underground moisture efficiently is discharged.
Above-mentioned technical purpose of the invention has the technical scheme that
A kind of damp proofing of ground structure is connected to the wall of base including base and vertically, be equipped with above the base by steam every
From hollow condensate layer, the hollow condensate layer is equipped with several support frames being vertically arranged, is above the hollow condensate layer
Ground surface layer, the ground surface layer are propped up by the support frame, and the hollow condensate layer is connected to a refrigeration machine, described hollow
Condensate layer bottom is communicated with drainage pipeline.
By using above-mentioned technical proposal, the moisture for rising to substrate surface from underground layer is complete to the cold in hollow condensate layer
Portion's condensation, condensed water are discharged by drainage pipeline, prevent it from continuing ascension to ground surface layer, hollow condensate layer is provided with
Effect prevents the upward evaporating-osmosis of the moisture of wetland layer from coming out, and is cooled into droplet in the earth's surface with air contact surfaces, leads
Cause the situation of ground humidity.
Further, insulating layer is equipped between the hollow condensate layer and ground surface layer.
By using above-mentioned technical proposal, insulating layer prevents the temperature on the low temperature reduction ground surface layer of hollow condensate layer, from
And the moisture in room air is not easy to condense in ground surface layer to the cold, and prevents the temperature on ground surface layer too low, to occupant
Health have an impact;In addition, ground surface layer and indoor heat are completely cut off by insulating layer, it is not easy to be transferred to hollow condensation
Layer, improves the refrigeration effect of hollow condensate layer, reduces the working frequency of refrigeration machine, energy saving.
Further, it is respectively equipped at the top and bottom of the hollow condensate layer towards the inclined inclined-plane of drainage pipeline.
By using above-mentioned technical proposal, condensed water is easily assembled to inclined-plane lower by inclined-plane, and is arranged by drainage pipeline
Out, the setting on inclined-plane can accelerate the discharge of condensed water.
Further, the hollow condensate layer and thermal insulation interlayer are equipped with damp-proof layer, damp-proof layer covering insulating layer bottom,
And fill up insulating layer and wall gap setting.
By using above-mentioned technical proposal, damp-proof layer effectively completely cuts off the steam of hollow condensate layer, prevents hollow condensate layer
Moisture infiltrates into ground surface layer from insulating layer;Also, due to expanding with heat and contract with cold, it is also easy to produce between ground surface layer and insulating layer and wall thin
Small gap, damp-proof layer extend between ground surface layer and wall, further prevent the moisture of hollow condensate layer from insulating layer and ground
It is entered the room in face surface layer and the gap of cavity.
Further, the interior above the ground surface layer is communicated with dehumidifier blower, during the dehumidifier blower is also connected to
Empty condensate layer.
By using above-mentioned technical proposal, dehumidifier blower works, and the vapor of room air is discharged, and prevents air humidity
Excessively high, Water vapor condensation is on ground surface layer and indoor wall;In addition, dehumidifier blower is also connected to hollow condensate layer, hollow condensation
The condensed water of layer is discharged from drainage pipeline, and part is non-condensing or is not made from the condensed water that drainage pipeline is discharged by dehumidifier blower
With accelerating the evaporation of hollow condensate layer moisture.
Further, the travel switch of control refrigeration machine starting, the travel switch packet are equipped in the hollow condensate layer
It includes push rod and connects the expanding material of push rod, when the push rod is bonded travel switch, the travel switch closure, the expansion material
Expect to fix far from travel switch one end, the expanding material moisture absorption expansion driven push rod is close to travel switch.
By using above-mentioned technical proposal, expanding material water swelling, dehydration shrinkage, expanding material is pushed after absorbing moisture
Push rod is bonded travel switch, and travel switch closure, refrigeration machine starting, after hollow cold coagulates humidity reduction in layer, expanding material is lost
Moisture is gone to shrink, push rod leaves travel switch, and refrigeration machine stops working;Refrigeration machine is opened according to the Humidity Automatic Control in condensate layer
Dynamic and stopping, refrigeration function are opened in time when humidity is high, and are stopped in time after humidity reduction, work intelligence and reduction energy
Consumption.
Further, be equipped with water supplying pipe between the insulating layer and ground surface layer, the water supplying pipe be communicated with water inlet pipe and
Outlet pipe, the water inlet pipe and outlet pipe are connected to a water-cycle heating.
By using above-mentioned technical proposal, ground surface layer is heated using water-cycle heating, so that ground surface layer is tieed up
Hold prevents the steam in air from condensing into droplet on ground surface layer in certain temperature.
Further, the water supplying pipe is connected in sequence by several interconnected U-shaped pipe monomers.
By using above-mentioned technical proposal, water supplying pipe uniform layout makes ground surface layer thermally equivalent below the surface layer of ground,
The temperature for effectively improving ground surface layer, prevents condensation vapor.
Further, the water-cycle heating includes water tank and water pump and heater in water tank,
The water pump is connected to water inlet pipe.
By using above-mentioned technical proposal, heater heats the water in water tank, water pump extract hot water, hot water from
Water inlet pipe flows into water supplying pipe, finally flows back to water tank from outlet pipe, completes hot water circuit to reach the mesh to the heating of ground surface layer
's.
Further, the drainage pipeline is connected to water tank.
By using above-mentioned technical proposal, the condensed water flowed out in layer is coagulated from hollow cold, water storage is flowed by drainage pipeline
Case is added to water-cycle heating, has saved water resource;The water of drainage pipeline bottom can be evacuated in water tank by water pump.
In conclusion the invention has the following advantages:
1. rising to the moisture of substrate surface in from underground layer by the way that hollow condensate layer is arranged between ground surface layer and base
Empty condensate layer all condenses to the cold, and condensed water is discharged by drainage pipeline, prevents it from continuing ascension to ground surface layer;
2. effectivelying prevent hollow condensate layer and ground surface layer to carry out by the way that insulating layer is arranged between hollow condensate layer and ground surface layer
Energy exchange, so that ground surface layer is not easy to cause because of the low temperature of hollow condensate layer the reduction of its temperature, prevent indoor steam because
This condenses in ground surface layer;
3. water supplying pipe connects bucket water-cycle heating, so that ground table by being laid with water supplying pipe on ground surface layer and thermal insulation interlayer
Layer is increased to certain temperature, effectively prevent indoor humidity high, and temperature be above the ground level surface layer when, indoor steam condenses in cryogenically
The occurrence of face surface layer.
Detailed description of the invention
Fig. 1 is the overall structure stereogram of the present embodiment;
Fig. 2 is the cross-sectional view of the present embodiment;
Fig. 3 is the overall structure stereogram that the present embodiment removes side wall and ground surface layer;
Fig. 4 is the overall structure stereogram of travel switch.
In figure: 1, base;2, wall;3, hollow condensate layer;31, support frame;32, snorkel;33, refrigeration machine;34, it arranges
Waterpipe;35, travel switch;351, push rod;352, expanding material;4, insulating layer;5, damp-proof layer;6, ground surface layer;61, dehumidifier
Blower;7, water supplying pipe;71, U-shaped pipe monomer;72, water inlet pipe;73, outlet pipe;8, water-cycle heating;81, water tank;
82, heater.
Specific embodiment
Below in conjunction with attached drawing, invention is further described in detail.
Embodiment:
Generally there are two types of reasons for ground moisture, and one is surface temperatures to be greater than air themperature, and the moisture of wetland layer is upward
Evaporating-osmosis comes out, and is cooled into droplet in the earth's surface with air contact surfaces, causes ground moist;Another kind is since air is wet
Degree is high, and surface temperature is low, and the vapor in air is cooled into droplet in the earth's surface contacted with soil horizon, causes ground damp
It is wet.The present invention is intended to provide a kind of efficiently prevent above-mentioned two situations from leading to ground damp ground moisture-proof construction, such as Fig. 1 and figure
Shown in 2, it is connected to the wall 2 of base 1 including base 1 and vertically, base 1 includes foundation soil metalling and the paving of leveling compacting
Concrete layer on foundation soil metalling.After drying up due to concrete layer, there is more micro gap, the water of underground
Vapour rises to 1 surface of base from gap, condenses or continue up transpiration to the cold on 1 surface of base.Damp proofing of ground knot of the invention
Structure is equipped with hollow condensate layer 3 also above base 1, sets up support frame 31 in hollow condensate layer 3, is laid with above support frame 31
Ground surface layer 6.As shown in Figures 2 and 3, hollow condensate layer 3 includes the snorkel 32 for being connected to its cavity, the connection refrigeration of snorkel 32
Machine 33, hollow 3 bottom of condensate layer are communicated with drainage pipeline 34.Refrigeration machine 33 is freezed by snorkel 32 to hollow condensate layer 3, from
The moisture that underground layer rises to 1 surface of base all condenses to the cold in hollow condensate layer 3, and condensed water passes through drainage pipeline
34 discharges prevent it from continuing ascension to ground surface layer 6, and the top and bottom inner wall of hollow condensate layer 3 is set as towards drainpipe
The inclined-plane in road 34, condensed water are easily assembled to inclined-plane lower by inclined-plane, and are discharged by drainage pipeline 34, and the setting on inclined-plane can add
The discharge of fast condensed water.
As shown in Figure 3 and Figure 4, the travel switch 35 that control refrigeration machine 33 starts is installed, stroke is opened in hollow condensate layer 3
35 2 inner sidewalls of wall for being located at hollow condensate layer 3 are closed, and travel switch 35 is arranged close to snorkel 32.Travel switch 35 includes
The expanding material 352 of push rod 351 and connection push rod 351, expanding material 352 are fixed on metope far from 351 one end of push rod, expand material
Material 352 is water sucting rubber, and expanding material 352 pushes push rod 351 to be bonded travel switch 35 after absorbing moisture, and travel switch 35 closes
It closes, refrigeration machine 33 starts;After hollow cold, which coagulates in layer 3 humidity, to be reduced, expanding material 352 dries out contractions, drive push rod 351
Travel switch 35 is left, refrigeration machine 33 stops working.Refrigeration machine 33 is started and stopped according to the Humidity Automatic Control in condensate layer,
Refrigeration machine 33 can be opened in time when humidity is high, and stop in time after humidity reduction, work intelligence and reduction energy consumption.Refrigeration machine
The master switch of 33 switch and control refrigeration machine 33 also indoors equipped with control travel switch 35, in 35 failure of travel switch
When, it shutoff stroke switch 35 and master switch can be started manually controls starting and stopping for refrigeration machine 33.The setting of hollow condensate layer 3
Effectively prevent the moisture of underground layer ground surface layer 6(referring to fig. 2) condensation.
As shown in Fig. 2, the low temperature of hollow condensate layer 3 easily makes ground surface layer 6 warm since the temperature of hollow condensate layer 3 is lower
Degree reduces, if indoor air humidity is higher, indoor vapor easily condenses on ground surface layer 6, makes the moist ponding in ground surface layer 6, leads
Cause Indoor Wooden furniture damage, result even in occupant slip, tumble injury.Damp proofing of ground structure of the invention is in hollow condensate layer
Insulating layer 4 is added between 3 and ground surface layer 6, insulating layer 4 is laid on 6 lower section of ground surface layer.Insulating layer 4 prevents hollow condensate layer 3
Low temperature reduces the temperature on ground surface layer 6, so that the moisture in room air is not easy to condense in ground surface layer 6 to the cold, and prevents
The temperature on ground surface layer 6 is too low, has an impact to the health of occupant.In addition, ground surface layer 6 and indoor heat by every
Warm layer 4 completely cuts off, and is not easy to be transferred to hollow condensate layer 3, improves the refrigeration effect of hollow condensate layer 3, reduces refrigeration machine 33(ginseng
See Fig. 4) working frequency, it is energy saving.Insulating layer 4 used herein needs certain waterproof effect, prevents hollow condensate layer 3
Moisture penetration to ground surface layer 6.The material of insulating layer 4 can be hydrophobic pearlite, and thermal coefficient is low, and appearance has one
Layer block glass bulb, makes compression strength with higher itself, is not easy to damage;In addition the water absorption rate of hydrophobic pearlite is low, effectively anti-
Only the moisture penetration of hollow condensate layer 3 is to ground surface layer 6.
As shown in Fig. 2, the bottom of insulating layer 4 is equipped with damp-proof layer 5, damp-proof layer 5 fits over 4 bottom of insulating layer and extends
It is arranged to the gap between insulating layer 4 and ground surface layer 6 and wall 2, damp-proof layer 5 effectively completely cuts off the steam of hollow condensate layer 3, prevents
The moisture of hollow condensate layer 3 infiltrates into ground surface layer 6 from insulating layer 4.Also, due to expanding with heat and contract with cold, ground surface layer 6 and insulating layer
Fine gap is also easy to produce between 4 and wall 2, the gap that damp-proof layer 5 extends between insulating layer 4 and ground surface layer 6 and wall 2 is set
It sets, the moisture of hollow condensate layer 3 is further prevented to enter the room from insulating layer 4 and ground surface layer 6 and the gap of cavity.It is moisture-proof
5 usable polymer membranes of layer, polymer membranes will be on the steam of hollow condensate layer 3 and insulating layer 4 and insulating layer 4
The structure isolation of side, and polymer membranes has excellent ductility and self-healing performance, effectively fills up insulating layer 4 and ground
Gap between surface layer 6 and wall 2 prevents the moisture of hollow condensate layer 3 from insulating layer 4 and ground surface layer 6 and the gap of wall 2
It enters the room.
As shown in figure 3, indoor be also communicated with dehumidifier blower 61, dehumidifier blower 61, which works, arranges the vapor of room air
Out, prevent air humidity excessively high, Water vapor condensation ground surface layer 6(referring to fig. 2) and indoor wall 2 on.In addition, dehumidifier blower
61 are also connected to hollow condensate layer 3, and the condensed water of hollow condensate layer 3 is discharged from drainage pipeline 34, and part is non-condensing or not from draining
The condensed water that pipeline 34 is discharged is acted on by dehumidifier blower 61, accelerates the rate of drying of hollow condensate layer 3.
As shown in Figures 2 and 3, it is equipped with water supplying pipe 7 between insulating layer 4 and ground surface layer 6, is further provided with water circulation
Heating system 8, water supplying pipe 7 are communicated with water inlet pipe 72 and outlet pipe 73, water inlet pipe 72 and outlet pipe 73 and water-cycle heating 8
Connection.Ground surface layer 6 is heated using water-cycle heating 8, so that ground surface layer 6 maintains certain temperature, prevents air
In steam condense into droplet on ground surface layer 6, water supplying pipe 7 is sequentially connected by several U-shaped pipe monomers 71 and is formed, thus for
7 uniform layout of water pipe makes 6 thermally equivalent of ground surface layer, effectively improves the temperature on ground surface layer 6, prevent below ground surface layer 6
Condensation vapor.As shown in figures 1 and 3, water-cycle heating 8 include water tank 81, the water pump in water tank 81 and
Heater 82, water pump connect water inlet pipe 72, and heater 82 heats the water in water tank 81, and water pump extracts hot water, hot water
Water supplying pipe 7 is flowed into from water inlet pipe 72, finally flows back to water tank 81 from outlet pipe 73, completes hot water circuit to reach to ground surface layer
6(is referring to fig. 2) heating purpose.
As shown in figure 3, drainage pipeline 34 is connected to water tank 81, the condensed water flowed out in layer 3 is coagulated from hollow cold and passes through draining
Pipeline 34 flows into water tank 81, is added to water-cycle heating 8, has saved water resource.The water of 34 bottom of drainage pipeline can lead to
Water pump is crossed to be evacuated in water tank 81.
The course of work: when building damp proofing of ground structure, soil horizon is flattened be compacted first, then paved on soil horizon broken
Stone, and flatten again;It should be noted that needing the reserved drainpipe road 34 above base 1, and the ground of base 1 should be towards row
Waterpipe 34 tilts, and after the completion of each piping laying, the casting concrete layer on rubble, after concrete layer is dry, base 1 is big
General build is completed;Wall 2 is then built, the dehumidifier pipeline that reserve snorkel 32 and dehumidifier blower 61 on wall 2 is paid attention to, connects
Support frame 31 is set up in base 1, and set damp-proof layer 5 on 31 upper berth of support frame, damp-proof layer 5 covers wall 2 and along wall
Body 2 upwardly extends, and the bottom of damp-proof layer 5 should also be tilted towards drainage pipeline 34;Insulating layer 4 is then laid on damp-proof layer 5,
Insulating layer 4 is bonded damp-proof layer 5 and is laid with;Insulating layer 4, which is laid with, to be completed to need to set up on insulating layer 4 by several U-shaped pipe monomers
The water supplying pipe 7 of 71 compositions, water supplying pipe 7 are connected to water-cycle heating 8;Ground surface layer 6, damp proofing of ground are laid on water supplying pipe 7
Structure substantially builds completion.
In use, the steam of underground layer rises to hollow condensate layer 3,352 water-absorbing body of expanding material by capillarity
Product increases, and pushes 351 closing stroke switch 35 of push rod, and refrigeration machine 33 starts, and reduces the temperature of hollow condensate layer 3, condensation vapor
And drainage pipeline 34 is converged to along inclined-plane and is discharged;Water supplying pipe 7 under ground surface layer 6 gives ground table by water-cycle heating 8
Layer 6 heats up, and prevents the steam in room air from condensing on the ground surface layer 6 of low temperature, causes ground surface layer 6 moist, and water supplying pipe 7
Insulating layer 4 is equipped between hollow condensate layer 3, insulating layer 4 has effectively obstructed the heat between hollow condensate layer 3 and ground surface layer 6 and handed over
It changes, prevents hollow condensate layer 3 from reducing by 6 temperature of ground surface layer, and prevent the hot water recycled in water supplying pipe 7 from increasing hollow condensation
The temperature of layer 3, the two-way working efficiency for improving the two of the setting of insulating layer 4, reduces energy consumption;In addition, dehumidifier blower 61 is taken out
Hollow condensate layer 3 and indoor moisture are taken, the drainage efficiency of hollow condensate layer 3 is effectively accelerated and distributes indoor steam, into one
Step prevents condensation vapor on ground surface layer 6.
The above is only a preferred embodiment of the present invention, protection scope of the present invention is not limited merely to above-mentioned implementation
Example, all technical solutions belonged under thinking of the present invention all belong to the scope of protection of the present invention.It should be pointed out that for the art
Those of ordinary skill for, several improvements and modifications without departing from the principles of the present invention, these improvements and modifications
It should be regarded as protection scope of the present invention.
Claims (10)
1. a kind of damp proofing of ground structure, including base (1) and the vertical wall (2) for being connected to base (1), it is characterised in that: institute
The hollow condensate layer (3) for being equipped with above base (1) and steam being isolated is stated, the hollow condensate layer (3) is equipped with several be vertically arranged
Support frame (31), be ground surface layer (6) above the hollow condensate layer (3), the ground surface layer (6) passes through the support
Skeleton (31) is propped up, and hollow condensate layer (3) connection one refrigeration machine (33), hollow condensate layer (3) bottom is communicated with row
Waterpipe (34).
2. a kind of damp proofing of ground structure according to claim 1, it is characterised in that: the hollow condensate layer (3) and ground
Insulating layer (4) are equipped between surface layer (6).
3. a kind of damp proofing of ground structure according to claim 2, it is characterised in that: the top of the hollow condensate layer (3)
It is respectively equipped with bottom towards drainage pipeline (34) inclined inclined-plane.
4. a kind of damp proofing of ground structure according to claim 3, it is characterised in that: the hollow condensate layer (3) and thermal insulation
Damp-proof layer (5) are equipped between layer (4), the damp-proof layer (5) covers insulating layer (4) bottom and fills up insulating layer (4) and wall (2)
Gap setting.
5. a kind of damp proofing of ground structure according to claim 4, it is characterised in that: the room above the ground surface layer (6)
It is inside communicated with dehumidifier blower (61), the dehumidifier blower (61) is also connected to hollow condensate layer (3).
6. a kind of damp proofing of ground structure according to any one of claim 5, it is characterised in that: the hollow condensate layer
(3) travel switch (35) of control refrigeration machine (33) starting is equipped in, the travel switch (35) includes push rod (351) and connection
The expanding material (352) of push rod (351), when the push rod (351) is bonded travel switch (35), the travel switch (35) is closed
It closes, the expanding material (352) is fixed far from travel switch (35) one end, and expanding material (352) moisture absorption expansion driven pushes away
Bar (351) is close to travel switch (35).
7. a kind of damp proofing of ground structure according to claim 6, it is characterised in that: the insulating layer (4) and ground surface layer
(6) it is equipped between water supplying pipe (7), the water supplying pipe (7) is communicated with water inlet pipe (72) and outlet pipe (73), the water inlet pipe (72)
A water-cycle heating (8) are connected to outlet pipe (73).
8. a kind of damp proofing of ground structure according to claim 7, it is characterised in that: the water supplying pipe (7) is by several mutual
The U-shaped pipe monomer (71) of connection is connected in sequence.
9. a kind of damp proofing of ground structure according to claim 8, it is characterised in that: water-cycle heating (8) packet
The water pump and heater (82) for including water tank (81) and being located in water tank (81), the water pump are connected to water inlet pipe (72).
10. a kind of damp proofing of ground structure according to claim 9, it is characterised in that: the drainage pipeline (34) is connected to
Water tank (81).
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Cited By (5)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN111139874A (en) * | 2020-02-17 | 2020-05-12 | 上海徐汇规划建筑设计有限公司 | Basement water conservancy diversion high efficiency dampproof structure |
CN112726681A (en) * | 2020-12-29 | 2021-04-30 | 福建省晓沃建设工程有限公司 | Large-area basement anti-seepage structure |
CN112878627A (en) * | 2021-01-14 | 2021-06-01 | 重庆弘力建设工程有限公司 | Ground waterproof structure |
CN113241604A (en) * | 2021-05-21 | 2021-08-10 | 广东电网有限责任公司 | Electric power cabinet and use method thereof |
CN113323128A (en) * | 2021-04-15 | 2021-08-31 | 广东现代建筑设计与顾问有限公司 | Building structure based on machine learning and BIM technology and design method |
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CN102589195A (en) * | 2012-03-19 | 2012-07-18 | 黄如瑾 | Heat supply and refrigeration system combining spatial energy with ground source energy |
CN103835420A (en) * | 2012-11-27 | 2014-06-04 | 陈祥凤 | Thermal-insulation and moisture-proof floor |
CN106088466A (en) * | 2016-07-27 | 2016-11-09 | 灌阳县陈工选矿机械制造有限公司 | A kind of cooling building board |
CN206160555U (en) * | 2016-10-28 | 2017-05-10 | 王越 | Earth source heat pump with water cyclic utilization function |
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AT863U1 (en) * | 1994-08-09 | 1996-06-25 | Horn Wolfgang | MULTILAYERED FLOORING ON THE BUILDING BASE |
CN102589195A (en) * | 2012-03-19 | 2012-07-18 | 黄如瑾 | Heat supply and refrigeration system combining spatial energy with ground source energy |
CN103835420A (en) * | 2012-11-27 | 2014-06-04 | 陈祥凤 | Thermal-insulation and moisture-proof floor |
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Publication number | Priority date | Publication date | Assignee | Title |
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CN111139874A (en) * | 2020-02-17 | 2020-05-12 | 上海徐汇规划建筑设计有限公司 | Basement water conservancy diversion high efficiency dampproof structure |
CN111139874B (en) * | 2020-02-17 | 2021-08-06 | 上海徐汇规划建筑设计有限公司 | Basement water conservancy diversion high efficiency dampproof structure |
CN112726681A (en) * | 2020-12-29 | 2021-04-30 | 福建省晓沃建设工程有限公司 | Large-area basement anti-seepage structure |
CN112878627A (en) * | 2021-01-14 | 2021-06-01 | 重庆弘力建设工程有限公司 | Ground waterproof structure |
CN113323128A (en) * | 2021-04-15 | 2021-08-31 | 广东现代建筑设计与顾问有限公司 | Building structure based on machine learning and BIM technology and design method |
CN113323128B (en) * | 2021-04-15 | 2022-10-04 | 广东现代建筑设计与顾问有限公司 | Building structure based on machine learning and BIM technology and design method |
CN113241604A (en) * | 2021-05-21 | 2021-08-10 | 广东电网有限责任公司 | Electric power cabinet and use method thereof |
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Address after: 300402 Liutan East, Beichen District, Tianjin Applicant after: Tianjin Jianggong City Construction Development Co., Ltd. Address before: 300402 Liutan East, Beichen District, Tianjin Applicant before: Tianjin Erjian Water & Electrical Installation Engineering Limited |
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Application publication date: 20190517 |