CN211640386U - Efficient energy-saving curing room for standard concrete components - Google Patents
Efficient energy-saving curing room for standard concrete components Download PDFInfo
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- CN211640386U CN211640386U CN201921765766.3U CN201921765766U CN211640386U CN 211640386 U CN211640386 U CN 211640386U CN 201921765766 U CN201921765766 U CN 201921765766U CN 211640386 U CN211640386 U CN 211640386U
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Abstract
The utility model discloses a high-efficiency energy-saving curing room for standard concrete members, which belongs to the field of engineering construction equipment and comprises a concrete curing room, an energy storage device and the like, the inner wall of the curing chamber is provided with a temperature and humidity sensing device which traverses two steam through pipelines, the outer pipelines are 70-80mm and 30-40mm diameter steam holes which are alternately arranged, the inner pipelines are provided with 50-60mm diameter steam holes, the inner and outer sleeves can rotate freely, so that the steam pipe can release steam independently, the control room automatically controls the rotation direction and speed of the motor, the utility model discloses a but the independent maintenance of concrete is realized to the free rotation sleeve pipe, has realized green energy-conserving target through solar cell panel.
Description
Technical Field
The utility model relates to a concrete curing equipment technical field specifically is a standard concrete member energy-efficient curing room.
Background
In practical engineering, the concrete quality requirement is higher and higher, so the curing of the concrete is particularly important, but in practice, the surrounding environment hardly reaches the concrete curing standard, so the temperature and humidity of the concrete are controlled by manual operation, so that the concrete just poured can be normal or the hardening and strength of the concrete are accelerated.
The maintenance of the cement concrete test piece has requirements on the temperature and the humidity of the environment, the general temperature is controlled at twenty ℃ and the humidity is controlled at ninety-five percent, the maintenance equipment is selected from a maintenance room or a maintenance box, a standard maintenance room is provided with heating, refrigerating and humidifying equipment (also provided with heating, refrigerating and humidifying equipment in a movable room or a container, and has the advantages of being movable and needing an external power supply due to the fact that air leakage occurs), the temperature and the humidity in the room are always maintained in a favorable state for the test piece, the space of the maintenance room is generally between 15 cubic meters and 240 cubic meters, the height of the maintenance room is not too high, the maintenance equipment comprises control equipment, automatic temperature and humidity control equipment of the maintenance room, a heating device and the like, circuits can bear high humidity examination, the concrete component is stored in the maintenance room, and then a steam generator and a heating lamp start to work until the temperature, the humidity and the humidity in the maintenance room, When the humidity sensing device senses that the indoor temperature and humidity reach the standard values, the automatic temperature and humidity control equipment in the control room enables the temperature and humidity of the curing room to be maintained at the standard values at the moment.
And there are some defects among the prior art scheme, the curing room maintenance concrete needs to use a large amount of energy, may cause the waste of energy to if the concrete member of maintenance is small in quantity, can waste the energy when not only curing, and inefficiency, therefore current concrete curing room still has the place that needs the improvement.
Disclosure of Invention
The utility model provides an energy-efficient curing room for curing concrete member, the purpose thinks to become an economizer system through solar energy and battery constitution, separates into a plurality of compartments with the curing room simultaneously, reaches energy-conserving efficient effect.
To achieve the above object, the technical object of the present invention is achieved by the following technical solutions:
the utility model provides an energy-efficient curing room of standard concrete member, includes curing room energy storage equipment, energy storage equipment links to each other solar cell panel and battery and forms the energy storage system exactly, and for humiture induction system and heating lamp in the curing room steam generator, water pump and the wet equipment of automatic temperature control accuse in the control room provide the electric energy in addition, the control room begins normal work.
Preferably, the left end of the steam generator in the control room is connected with a steam through pipe, and the water pump is connected with the steam generator, so that water flow is ensured to enter the steam generator from the water inlet pipe through the water pump.
Preferably, the right water pump of the steam generator in the control chamber is used for introducing water entering from the water inlet pipe through the water pump into the steam generator, and the water is changed into steam through the high-temperature and high-pressure action of the steam generator and introduced into the steam introducing pipe from the steam outlet pipe.
Preferably, the steam through pipe consists of an outer steam through pipe and an inner steam through pipe, steam holes with the diameter of 70-80mm are distributed above the outer steam through pipe, steam holes with the diameter of 30-40mm are distributed below the outer steam through pipe, and steam holes with the diameter of 50-60mm are distributed on the inner steam through pipe.
Preferably, the steam outlet pipe is connected with the bearing at the right side, and when the outer steam outlet pipe rotates, the steam outlet pipe cannot rotate along with the outer steam outlet pipe.
Preferably, the steam pipe left end is connected with the dwang, and the dwang passes through the motor and drives its rotation, and the motor is inside to link to each other with wet equipment of automatic temperature and humidity control, and after the warm humidity induction system of curing room sent the signal to wet equipment of automatic temperature and humidity control, the motor can be adjusted according to the size of humidity and rotate.
Preferably, after the temperature and humidity sensing device senses the temperature of the curing chamber, the automatic temperature and humidity control equipment adjusts the temperature of the heating lamp according to the standard curing temperature until the standard curing temperature is met.
Preferably, every compartment is independent each other in the maintenance room, and is equipped with the entry, and outer steam pipe segmentally rotates, if concrete member quantity is less, can only open the maintenance room compartment of a certain quantity and only rotate its steam pipe that leads to that corresponds to reach the effect of energy saving and high-efficient maintenance.
Compared with the prior art, the beneficial effects of the utility model are as follows:
1. the solar cell panel is connected with the storage battery to form an energy storage system, so that the effect of saving energy is achieved, the system formed by the solar energy and the storage battery can avoid the problem of insufficient energy caused by weather, if the weather is cloudy, a power supply stored in the storage battery can be started, and when the weather is clear, the solar energy and the storage battery can continuously store electricity, so that the use of energy is ensured;
2. through arranging the steam through holes with different diameters of the inner steam through pipe and the outer steam through pipe, the effect of simply and conveniently controlling the humidity is achieved, and meanwhile, the energy is saved;
3. through setting up the different compartments of curing chamber to each other do not influence between the compartment, if concrete member quantity is less, optional compartment quantity, consequently reach the energy saving, and more efficient effect.
Drawings
FIG. 1 is a schematic view of the overall construction of a concrete curing room;
FIG. 2 is an elevation view of a control room;
FIG. 3 is a detailed view of a junction node where the steam vent tube connects to the steam generator;
fig. 4 is a view showing the inner structure of the steam pipe.
In the figure: 1. the solar energy heat preservation and heat preservation device comprises a solar cell panel 2, a storage battery 3, a heating lamp 4, a steam generator 5, an automatic temperature and humidity control device 6, a water pump 7, an inner wall 8, a temperature and humidity sensing device 9, a steam through pipe 91, an outer steam through pipe 911, a steam hole 912 with the diameter of 70-80mm, a steam hole 92 with the diameter of 30-40mm, an inner steam through pipe 921, a steam hole 10 with the diameter of 50-60mm, a water inlet pipe 11, a maintenance chamber 12, a control chamber 13, a steam outlet pipe 14, a rotating rod 15, a motor 16, a bearing 12, a
Detailed Description
The present invention will be described in further detail with reference to the accompanying drawings.
Referring to fig. 1, the utility model mainly comprises two areas, namely a control room 12 and a curing room 11, wherein the upper part of the curing room 11 is provided with a power storage system, a solar panel 1 is laid on the top of a roof to convert solar energy into electric energy to provide power support for the whole working system, the power storage system is arranged on the lower part of the roof panel, namely the top of a ceiling, which is an energy center of the whole working system, a motor 15, heating lamps 3, temperature and humidity sensing devices 8, steam generators 4, water pumps 6 and automatic temperature and humidity control equipment 5 are connected, each compartment in the curing room 11 is provided with six heating lamps 3, a temperature and humidity sensing device 8, the whole curing room 11 penetrates through two steam pipes 9 to carry out curing and temperature and humidity monitoring on concrete components, two steam generators 4, two water pumps 6 and one automatic temperature and humidity control equipment 5 are arranged in the control room 12, the steam generators 4 are connected with the steam pipes 9 leading to the curing room 11 through the steam outlet pipes 9, the other end is connected with a water pump 6, the water pump 6 pumps the underground water into the steam generator 4 through a water inlet pipe, the control room 12 is provided with an automatic temperature and humidity control device 5, and the temperature and the humidity in the curing room 11 are controlled through temperature and humidity signals transmitted by a temperature and humidity sensing device 8 in the curing room 11.
Referring to fig. 2, a detailed display is made on the equipment arrangement inside the control room 12, the steam generator 4 is connected with the water pump 6 to form a set of steam generation system, two sets of automatic temperature and humidity control equipment 5 are arranged in the control room 12 to fully meet the standard conditions of the temperature and humidity of the whole curing room 11, the automatic temperature and humidity control equipment 5 is arranged in parallel with the two sets of automatic temperature and humidity control equipment, the temperature and humidity conditions in each curing room 11 are transmitted to the automatic temperature and humidity control equipment 5 through the temperature and humidity sensing device 8, the equipment judges the temperature and humidity to adjust the rotation direction and the rotation speed of the motor 15, and the steam through pipe 9 is indirectly controlled to adjust the temperature and humidity in the curing room 11.
Referring to fig. 3, an enlarged display is made on the joint of the steam through pipe 9 and the steam generator 4, the arrangement of the bearing 16 saves space, makes the whole joint more concise, makes the rotation of the outer steam through pipe 91 and the inner steam through pipe 92 independent from each other, the outer steam through pipe 91 does not rotate with the motor 15, the outer steam through pipe 91 of each compartment does not influence each other, the inner steam through pipe 92 can provide power to rotate through the motor 15, thus, each maintenance compartment can be independently adjusted according to the temperature and humidity conditions of the compartment, one side of the bearing 16 is connected with the outer steam through pipe 91 and the other side of the inner steam through pipe 92 is connected with the steam outlet pipe 13 of the steam generator 4, the sealing performance is good, water vapor cannot leak, and motor 15 and bearing 16's driving system has solved the manual regulation of manpower, and convenient and fast controls motor 15 by automatic temperature and humidity control equipment 5 for regulation and control is more scientific and accurate.
Referring to fig. 4, which shows an exploded view of the steam through pipe 9, the steam hole 921 with a diameter of 50-60mm of the inner steam through pipe 92 is located between the steam hole 911 with a diameter of 70-80mm and the steam hole 912 with a diameter of 30-40mm of the outer steam through pipe 91, and functions to facilitate adjustment of the discharge amount of steam, thereby adjusting the temperature and humidity in the curing chamber 11, when the temperature and humidity in the curing chamber 11 is lower than a standard value, the automatic temperature and humidity control device 5 sends an instruction to the motor 15, and the rotation is adjusted to make the steam hole 921 with a diameter of 50-60mm of the inner steam through pipe 92 align with the steam hole 911 with a diameter of 70-80mm of the outer steam through pipe 91, so that the steam is released to the maximum, the temperature and humidity of the curing chamber 11 are increased, otherwise, the steam hole 912 with a diameter of 30-40mm is adjusted.
Claims (8)
1. The utility model provides an energy-efficient curing room of standard concrete member, includes curing room energy memory, its characterized in that: the solar cell panel (1) is connected with the storage battery (2) to form an energy storage system, electric energy is provided for the temperature and humidity sensing device (8) and the heating lamp (3) on the inner wall (7) of the curing room (11) and the steam generator (4), the water pump (6) and the automatic temperature and humidity control equipment (5) in the control room (12), and the control room (12) starts to work normally.
2. The energy-efficient curing room of standard concrete component of claim 1, characterized by that: the left end of the steam generator (4) in the control chamber (12) is connected with the steam through pipe (9), and the water pump (6) is connected with the steam generator (4) to ensure that water enters the steam generator (4) from the water inlet pipe (10).
3. The energy-efficient curing room of standard concrete component of claim 2, characterized by that: the right water receiving pump (6) of the steam generator (4) in the control room (12) is used for introducing water entering from the water inlet pipe (10) into the steam generator (4), and the water is converted into steam under the action of high temperature and high pressure of the steam generator (4) and introduced into the steam passing pipe (9) from the steam outlet pipe (13).
4. The energy-efficient curing room of standard concrete component of claim 3, characterized by that: the steam through pipe (9) consists of an outer steam through pipe (91) and an inner steam through pipe (92), steam holes (911) with the diameter of 70-80mm are distributed above the outer steam through pipe (91), steam holes (912) with the diameter of 30-40mm are distributed below the outer steam through pipe, steam holes (921) with the diameter of 50-60mm are distributed on the inner steam through pipe (92), when the humidity in the curing chamber (11) is larger, the motor (15) drives the rotating rod (14) to enable the steam through holes (921) with the diameter of 50-60mm of the inner steam through pipe (92) to be aligned with the steam through holes (911) with the diameter of 70-80mm of the outer steam through pipe (91), and therefore the discharged steam is reduced to achieve the effect of reducing the humidity, and vice versa.
5. The energy-efficient curing room of standard concrete component of claim 3, characterized by that: the steam through pipe (9) is connected with a bearing (16) at the right side, and when the external steam through pipe (91) rotates, the steam outlet pipe (13) can be ensured not to rotate along with the external steam through pipe.
6. The energy-efficient curing room of standard concrete component of claim 4, characterized by that: the steam pipe left end is connected with dwang (14), and dwang (14) drive its rotation through motor (15), and motor (15) are inside to link to each other with automatic temperature and humidity control equipment (5), and after curing room (11) moderate temperature humidity induction system (8) sent signal to automatic temperature and humidity control equipment (5), rotation can be adjusted according to the size of humidity in motor (15).
7. The energy-efficient curing room of standard concrete component of claim 5, characterized by that: after the temperature and humidity sensing device (8) senses the temperature of the curing room, the automatic temperature and humidity control equipment (5) adjusts the temperature of the heating lamp (3) according to the standard curing temperature until the standard curing temperature is met.
8. The energy-efficient curing room of standard concrete component of claim 1, characterized by that: every compartment is independent each other in maintenance room (11), and is equipped with the entry, and outer steam pipe (91) segmentally rotates, if concrete member quantity is less, can only open the maintenance room compartment of a certain quantity and only rotate its steam pipe (9) that lead to that corresponds to reach the effect of energy saving and high-efficient maintenance.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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CN201921765766.3U CN211640386U (en) | 2019-10-21 | 2019-10-21 | Efficient energy-saving curing room for standard concrete components |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
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CN201921765766.3U CN211640386U (en) | 2019-10-21 | 2019-10-21 | Efficient energy-saving curing room for standard concrete components |
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Publication Number | Publication Date |
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CN211640386U true CN211640386U (en) | 2020-10-09 |
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CN201921765766.3U Expired - Fee Related CN211640386U (en) | 2019-10-21 | 2019-10-21 | Efficient energy-saving curing room for standard concrete components |
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CN (1) | CN211640386U (en) |
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2019
- 2019-10-21 CN CN201921765766.3U patent/CN211640386U/en not_active Expired - Fee Related
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CF01 | Termination of patent right due to non-payment of annual fee | ||
CF01 | Termination of patent right due to non-payment of annual fee |
Granted publication date: 20201009 Termination date: 20211021 |