CN216690346U - Integrated pouring construction structure of building house - Google Patents

Abstract

The application relates to an integrally poured building construction structure, which comprises a template, a water supply pipe, a heating strip, a detection device, a water delivery pipe and a concrete curing device, wherein the template is provided with a plurality of water filling holes and a plurality of detection holes; this application has the effect that reduces personnel working strength among the concrete curing process.

Description

Integrated pouring construction structure of building house

Technical Field

The application relates to the technical field of building construction, in particular to an integrated pouring building construction structure.

Background

In order to improve the strength of concrete, after the concrete is poured, continuous curing is required to harden the concrete under appropriate temperature and humidity conditions, and in some construction projects with high quality requirements, the concrete is required to be cured for tens of days.

At present, construction units often adopt the mode of manual watering and covering heat preservation or moisturizing material to the concrete to carry out the maintenance to the concrete, and the staff working strength who carries out the concrete maintenance is great, and the manual work carries out the maintenance of concrete and appears carelessly loudly easily, influences the quality of concrete.

In view of the above-mentioned related art, the inventors consider that there is a problem in that the work intensity of workers during the curing of concrete is large.

SUMMERY OF THE UTILITY MODEL

In order to reduce the personnel working strength among the concrete curing process, this application provides a building house construction structures that integration was pour.

The application provides a building house construction structures that integration was pour adopts following technical scheme:

the integrally poured building construction structure comprises a template, a water supply pipe, a heating strip, a detection device, a water conveying pipe and a concrete maintenance device, wherein the template is provided with a plurality of water filling holes and a plurality of detection holes, the template is provided with a plurality of filter plugs, the filter plugs penetrate through the water filling holes, the water supply pipe comprises a water inlet and a plurality of water outlets, the water supply pipe is fixedly connected to one surface of the template, which is far away from concrete, and the water outlets are respectively aligned with the water filling holes, the water inlet is arranged on one side of the water supply pipe, which is far away from the template, the water inlet is connected with the pipe orifice of the water conveying pipe, the water conveying pipe is connected with the concrete maintenance device, a water pump for supplying water to the water conveying pipe is arranged in the concrete maintenance device, and the detection device penetrates through the detection holes and is used for detecting the temperature and the humidity of the concrete, the heating strip fixed connection in the template, just the heating strip electricity connect in concrete curing means, concrete curing means and heating strip coupling are connected with control circuit, control circuit includes:

the temperature detection and comparison module is used for acquiring the temperature detected by the detection device and outputting a temperature detection signal, and is provided with a first reference signal Verf1 so as to send out a temperature comparison signal when the temperature detection signal is smaller than the first reference signal Verf 1;

the first switch module is coupled to the temperature detection comparison module and used for sending out a first switch signal when receiving the temperature comparison signal;

the first execution module is coupled to the first switch module and is connected in series in a power supply loop of the heating strip so as to send out a first execution signal when receiving the first switch signal, so that the heating strip generates heat;

the humidity detection and comparison module is used for acquiring the humidity detected by the detection device and outputting a humidity detection signal, and the humidity detection and comparison module is provided with a second reference signal Verf2 so as to send a humidity comparison signal when the humidity detection signal is smaller than the second reference signal Verf 2;

the second switch module is coupled to the humidity detection comparison module and used for sending a second switch signal when receiving the humidity comparison signal;

and the second execution module is coupled with the second switch module and is connected in series in a power supply loop of the water pump so as to send out a second execution signal when receiving the second switch signal, so that the water pump is started to supply water to the water pipe.

By adopting the technical scheme, a plurality of water filling holes and detection holes are formed in a template of the integrally poured building construction structure, the integrally poured building construction structure further comprises a water supply pipe, a heating strip, a detection device and a water delivery pipe, wherein the detection device is arranged in the detection holes in a penetrating mode and used for detecting the temperature and the humidity of concrete, the water supply pipe is provided with a water inlet and a plurality of water outlets, the water inlet is connected to the water delivery pipe, the water delivery pipe is connected to the concrete maintenance device and provides a water source for the water inlet, water in the water supply pipe permeates into the concrete through the water outlets so as to achieve the effect of increasing the humidity of the concrete, and a filter plug is arranged in the water filling holes in a penetrating mode and used for preventing the concrete from entering the water supply pipe through the water inlet and blocking the water supply pipe; the heating strips are fixedly connected to the template and used for heating the template so as to achieve the effect of improving the temperature of the concrete, and the effect of curing the concrete is achieved by adjusting the humidity and the temperature of the concrete; the heating strip electricity is connected in concrete curing means, and concrete curing means and heating strip coupling are connected in control circuit, and control circuit includes: the temperature detection and comparison module, the first switch module, the first execution module, the humidity detection and comparison module, the second switch module and the second execution module, when the detection device detects that the temperature of the concrete is less than the preset temperature value required for concrete curing, the temperature detection and comparison module sends a temperature comparison signal, the first switch module receives the temperature comparison signal and sends a first switch signal, the first execution module receives the first switch signal and sends a first execution signal to control the power supply loop of the heating strip to be communicated so as to heat the template, and then the heat is transferred to the concrete through the template, so that the effect of improving the temperature of the concrete is achieved; when the detection device detects that the humidity of the concrete is smaller than a preset humidity value required for concrete curing, the humidity detection comparison module sends a humidity comparison signal, the second switch module receives the humidity comparison signal and sends a second switch signal, the second execution module receives the second switch signal and sends a second execution signal to control a power supply loop of the water pump to be communicated so as to provide a water source for the water supply pipe, and then the water flow permeates into the concrete through the water outlet, so that the effect of improving the humidity of the concrete is achieved; through the temperature and the humidity automatic control concrete curing means who detects the concrete, need not the manual work and spray water and heat work to the concrete, reduced personnel's work load, improved the efficiency and the quality of concrete curing.

Optionally, a sealing ring is sleeved on the outer wall of the water inlet, and one side of the sealing ring, which is far away from the template, abuts against the pipe orifice of the water delivery pipe.

Through adopting above-mentioned technical scheme, the outer wall cover of water inlet is equipped with the mouth of pipe butt in the sealing washer of sealing washer and raceway, is convenient for improve the leakproofness between the mouth of pipe of water inlet and raceway, reduces the emergence of the condition of leaking, is convenient for maintain the water pressure in the water supply pipe, makes during rivers permeate the concrete more easily.

Optionally, the heating strip includes the core and the heat preservation generate heat, the straight face of the core that generates heat hug closely in the template, the curved surface fixed connection of the core that generates heat in the heat preservation.

Through adopting above-mentioned technical scheme, the heating strip comprises the core and the heat preservation shell that generate heat, and the core that generates heat is used for producing heat, the straight face of the core that generates heat hug closely in the template is convenient for with heat transfer to the template on, the curved surface fixed connection of the core that generates heat in the heat preservation shell to reduce thermal scattering and disappearing, improve heat utilization rate.

Optionally, the detection hole is a threaded hole.

Through adopting above-mentioned technical scheme, the inspection hole is the screw hole, and inspection hole and threaded connection in template are worn to locate by the detection device who is provided with the external screw thread on the outer wall of being convenient for, and the plunger shutoff that also is convenient for use simultaneously has the external screw thread need not to carry out the inspection hole that temperature or humidity detected the position to prevent that the concrete from leaking from the inspection hole.

Optionally, a heat insulation layer is arranged on one side, far away from the concrete, of the formwork.

Through adopting above-mentioned technical scheme, the one side that the template kept away from to contact in the concrete is provided with the heat preservation for wrap up the template, reduce the heat that scatters and disappears through the template surface, further improve the heat preservation effect of template, the energy saving.

Optionally, the temperature detection comparing module includes a temperature sensor and a first comparator N1, the temperature sensor is connected to the power supply loop, a signal output end of the temperature sensor is coupled to an inverting input end of the first comparator N1, a non-inverting input end of the first comparator N1 is coupled to a first reference signal Verf1, and a signal output end of the first comparator N1 is coupled to the first switching module through a first resistor R1.

By adopting the technical scheme, the temperature sensor is connected to the power supply loop, the signal output end of the temperature sensor is coupled and connected to the inverting input end of the first comparator N1 to receive the temperature detection signal from the temperature sensor, the temperature sensor generates the temperature detection signal according to the detected temperature of the concrete and compares the temperature detection signal with the first reference signal Verf1, when the temperature of the concrete detected by the temperature sensor is greater than the preset temperature value, the temperature detection signal is greater than the first reference signal Verf1, when the detected temperature of the concrete is less than the preset temperature value, the temperature detection signal is less than the first reference signal Verf1, the signal output end of the first comparator N1 outputs the temperature comparison signal to the first switch module, and the function of detecting whether the temperature of the concrete is less than the preset temperature value is realized.

Optionally, the first switch module includes a first transistor Q1, a base of the first transistor Q1 is coupled to the signal output end of the first comparator N1 through a first resistor R1, a collector of the first transistor Q1 is coupled to the power supply voltage VCC after being connected in series with a second resistor R2, and an emitter of the first transistor Q1 is coupled to the first execution module and then grounded.

By adopting the technical scheme, when the base of the first triode Q1 receives the temperature comparison signal output by the signal output end of the first comparator N1, the first triode Q1 is converted from low level to high level and sends a first switch signal to the first relay KM1, so that the first normally open contact switch KM1-1 of the first relay KM1 is closed, when the first triode Q1 does not receive the temperature comparison signal, the low level is maintained, the first normally open contact switch KM1-1 is in an open state, the first triode Q1 is used for detecting the signal from the temperature detection comparison module, and the working state of the first execution module is controlled according to the received different signals.

Optionally, the first execution module includes a first relay KM1, one end of a coil of the first relay KM1 is connected in series to an emitter of the first triode Q1, and the other end of the first relay KM1 is connected to ground, and the first relay KM1 includes a first normally open contact switch KM1-1, and the first normally open contact switch KM1-1 is connected in series to a power supply loop of the heating strip.

By adopting the technical scheme, when the first relay KM1 receives the first switch signal, the first relay KM1 sends a first execution signal to close the first normally open contact switch KM1-1, so that a power supply loop of the heating strip is switched on, and the heating core heats; when the first relay KM1 does not receive the first switch signal, the first normally open contact switch KM1-1 is in an open state, and the heating bar is not electrified.

In summary, the present application includes at least one of the following beneficial technical effects:

1. the method comprises the following steps of pouring concrete by using a template provided with a water supply device and a heating device, detecting the temperature and humidity of the concrete in real time after pouring is finished, and automatically controlling the working states of a heating strip and a water pump according to detected temperature and humidity data so as to be communicated with a power supply loop of the heating strip when the temperature of the concrete is too low, transmitting heat to the concrete through the heating strip fixedly connected to the template, and simultaneously being communicated with the power supply loop of the water pump when the humidity of the concrete is too low, and pouring water into the concrete through a water outlet of a water supply pipe; the temperature and humidity of the concrete can be automatically adjusted, the labor capacity of workers for maintaining the concrete is reduced, and the concrete maintenance work is more scientific.

2. The side of the formwork, which is far away from the concrete, is provided with the heat preservation layer for wrapping the formwork, so that the heat dissipated through the surface of the formwork is reduced, and the heat preservation effect on the concrete is improved.

3. The inspection hole is the screw hole, is convenient for connect detection device on the template, and the plunger shutoff inspection hole that simultaneously convenient to use has the external screw thread to flow in the inspection hole of concrete non-installation detection device in case.

Drawings

Fig. 1 is a schematic structural diagram of an embodiment of the present application.

Fig. 2 is a cross-sectional view of section a-a in fig. 1.

Fig. 3 is a partially enlarged view of a portion a in fig. 2.

Fig. 4 is a circuit diagram of a control circuit in the embodiment of the present application.

Fig. 5 is a circuit diagram of a heating strip and a water pump power supply circuit in an embodiment of the present application.

Description of reference numerals: 01. concrete; 1. a template; 101. a water filling hole; 102. detecting holes; 103. a filter plug; 2. a water supply pipe; 21. a water inlet; 211. a seal ring; 22. a water outlet; 3. heating the strip; 31. a heat generating core; 32. a heat preservation shell; 4. a detection device; 5. a water delivery pipe; 6. a temperature detection and comparison module; 7. a first switch module; 8. a first execution module; 9. a humidity detection and comparison module; 10. a second switch module; 11. a second execution module; 12. a heat-insulating layer; 13. and (4) a water pump.

Detailed Description

The present application is described in further detail below with reference to figures 1-5.

The embodiment of the application discloses building construction structure that integration was pour. Referring to fig. 1 and 2, the integrally cast construction structure for a building includes a formwork 1, a water supply pipe 2, a heating bar 3, a detection device 4, a water delivery pipe 5, and a concrete curing device (not shown).

Referring to fig. 2 and 3, the formwork 1 is used for supporting the poured concrete 01 so as to form the concrete 01 according to the geometric shape and size of the package, in this embodiment, the formwork 1 may be made of aluminum alloy or other materials with good thermal conductivity, a plurality of water pouring holes 101 and a plurality of detection holes 102 are formed in the formwork 1, wherein the water pouring holes 101 are used for pouring water into the concrete 01 so as to improve the humidity of the concrete 01, and the detection holes 102 are used for detecting the temperature and the humidity of the concrete 01 by using the detection device 4 so as to take corresponding maintenance measures according to the detected temperature and humidity of the concrete 01.

Referring to fig. 1 and 3, a water supply pipe 2 is fixedly connected to a side of the formwork 1 away from the concrete 01, the water supply pipe 2 includes a water inlet 21 and a plurality of water outlets 22, wherein a plurality of water outlets 22 are arranged on the template 1, the distance between every two water outlets 22 is equal, the distance between every two water outlets 22 is also equal, in this embodiment, the pipe of the water outlet pipe is arranged in a net shape, the water inlet 21 is arranged at one side of the water supply pipe 2 far away from the template 1, the water inlet 21 is in a round pipe shape, the outer wall of the water inlet 21 is provided with external threads, the pipe orifice of the water pipe 5 is provided with internal threads used for matching with the external threads of the water inlet 21, the water inlet 21 is sleeved with a sealing ring 211, when the water inlet 21 is connected with the pipe orifice of the water pipe 5 by screw thread, the pipe orifice of the water pipe 5 is abutted against the sealing ring 211, so as to improve the sealing performance between the water inlet 21 and the water delivery pipe 5 and prevent the problems of water resource waste and water pressure reduction caused by water leakage; the template 1 is also provided with a plurality of filter plugs 103, the filter plugs 103 penetrate through the water filling holes 101, one ends of the filter plugs 103 extend into the water inlets 21, the filter plugs 103 are made of permeable materials, water in the water supply pipe 2 can conveniently enter the concrete 01, and the function of plugging the water inlets 21 is achieved to prevent the concrete 01 from flowing into the water supply pipe 2 before solidification to cause the problem of pipeline blockage of the water supply pipe 2.

Referring to fig. 2 and 3, the heating strip 3 is fixedly connected in the template 1, the heating strip 3 comprises a heating core and a heat preservation shell 32, the cross section of the heating core is semicircular, the straight surface of the heating core is tightly attached to the template 1, heat is conveniently conducted to the template 1, the temperature of concrete 01 is further increased, and the curved surface of the heating core 31 is fixedly connected to the heat preservation shell 32 to reduce heat dissipation and improve the utilization rate of heat energy.

The inspection hole 102 is the screw hole, detection device 4 is cylindricly, and the one end outer wall that detection device 4 wore to locate inspection hole 102 is provided with the external screw thread, be convenient for 4 threaded connection of detection device in inspection hole 102, in the in-service use, can only carry out the temperature and the humidity detection of concrete 01 to partial inspection hole 102 position, set inspection hole 102 into the screw hole, the plunger shutoff that convenient to use has the external screw thread need not to carry out the inspection hole 102 that temperature and humidity detected, flow out from inspection hole 102 before preventing concrete 01 solidifies.

One end of the water pipe 5, which is far away from the water inlet 21, is connected to the concrete 01 curing device, the concrete 01 curing device comprises a water pump (not shown in the figure) which is used for pumping water into the water pipe 5, so that the water permeates into the concrete 01 after passing through the water pipe 5, the water inlet 21, the water supply pipe 2 and the water outlet 22, and the heating strip 3 is electrically connected to the concrete curing device.

The side, far away from the concrete 01, of the formwork 1 is further provided with a heat insulation layer 12, in the embodiment, the heat insulation layer 12 is made of heat insulation materials, the heat insulation layer 12 is fixedly connected to the surface of the formwork 1, so that the heat insulation effect of the formwork 1 is improved, heat loss from the surface of the formwork 1 is reduced, energy is saved, and the heat insulation layer 12 is provided with a plurality of openings at the connecting part of the water supply pipe 2 and the formwork 1, the connecting part of the heating strip 3 and the formwork 1 and the positions of the detection holes 102; in practical application, the heat-insulating layer 12 can also be formed by coating paste-like or liquid heat-insulating paint on the surface of the template 1.

Referring to fig. 4 and 5, the concrete curing device is coupled to the heating strip 3 to form a control circuit, and the control circuit includes: the device comprises a temperature detection comparison module 6, a first switch module 7, a first execution module 8, a humidity detection comparison module 9, a second switch module 10 and a second execution module 11.

The temperature detection and comparison module 6 is configured to obtain the temperature detected by the detection device 4 and output a temperature detection signal, the temperature detection and comparison module 6 is provided with a first reference signal Verf1 to send a temperature comparison signal when the temperature detection signal is smaller than the first reference signal Verf1, the temperature detection and comparison module 6 includes a temperature sensor and a first comparator N1, the temperature sensor is connected to the power supply loop, a signal output end of the temperature sensor is coupled to an inverting input end of the first comparator N1, a positive phase input end of the first comparator N1 is coupled to the first reference signal Verf1, and a signal output end of the first comparator N1 is coupled to the first switch module 7 through a first resistor R1.

The first switch module 7 is coupled to the temperature detection and comparison module 6 to send a first switch signal when receiving the temperature comparison signal, the first switch module 7 includes a first triode Q1, the base of the first triode Q1 is coupled to the signal output end of the first comparator N1 after passing through a first resistor R1, the collector of the first triode Q1 is coupled to the power supply voltage VCC after being connected in series with a second resistor R2, and the emitter of the first triode Q1 is coupled to the first execution module 8 and then grounded.

The first execution module 8 is coupled to the first switch module 7 and connected in series in the power supply loop of the heating strip 3, so as to send out a first execution signal when receiving the first switch signal, so that the heating strip 3 generates heat, the first execution module 8 includes a first relay KM1, one end of a coil of the first relay KM1 is connected in series with an emitter of the first triode Q1, and the other end is grounded, the first relay KM1 includes a first normally open contact switch KM1-1, and the first normally open contact switch KM1-1 is connected in series with the power supply loop of the heating strip 3.

The humidity detection and comparison module 9 is configured to obtain humidity detected by the detection device 4 and output a humidity detection signal, the humidity detection and comparison module 9 is provided with a second reference signal Verf2 to send a humidity comparison signal when the humidity detection signal is smaller than the second reference signal Verf2, the humidity detection and comparison module 9 includes a humidity sensor and a second comparator N2, the humidity sensor is connected to the power supply loop, a signal output end of the humidity sensor is coupled to an inverting input end of the second comparator N2, a positive phase input end of the second comparator N2 is coupled to the second reference signal Verf2, and a signal output end of the second comparator N2 is coupled to the second switch module 10 after passing through a third resistor R3.

The second switch module 10 is coupled to the humidity detection and comparison module 9 to send a second switch signal when receiving the humidity comparison signal, the second switch module 10 includes a second triode Q2, the base of the second triode Q2 is coupled to the signal output end of the second comparator N2 through a third resistor R3, the collector of the second triode Q2 is coupled to the power supply voltage VCC after being connected in series with a fourth resistor R4, and the emitter of the second triode Q2 is coupled to the second execution module 11 and then grounded.

The second execution module 11 is coupled to the second switch module 10 and connected in series in the power supply loop of the water pump 13, so as to send out a second execution signal when receiving the second switch signal, so that the water pump 13 starts to supply water to the water pipe 5, the second execution module 11 includes a second relay KM2, one end of a coil of the second relay KM2 is connected in series with an emitter of the second triode Q1, and the other end of the coil is grounded, the second relay KM2 includes a second normally open contact switch KM2-1, and the second normally open contact switch KM2-1 is connected in series in the power supply loop of the water pump 13.

The implementation principle of the building construction structure of this application embodiment that an integration was pour is: the supporting structure for integrally pouring the concrete 01 is constructed by using the template 1 in the embodiment, after the concrete 01 is poured, the pipe orifice of the water pipe 5 is in threaded connection with the water inlet 21, the detection device 4 is in threaded connection with the detection hole 102, the detection device 4 detects the temperature and the humidity of the concrete 01 in real time, when the temperature of the concrete 01 is lower than a preset temperature value required for concrete curing, a power supply loop of the heating strip 3 is automatically connected, so that the heating strip 3 conducts heat into the concrete 01 through the template 1, and meanwhile, a heat insulation layer 12 is further arranged on one surface, far away from the concrete 01, of the template 1, so that the heat insulation effect of the template 1 is improved, and energy waste is reduced; when the humidity of the concrete 01 is lower than the preset humidity value required by concrete curing, a power supply loop of the water pump 13 is automatically switched on, so that water permeates into the concrete 01 after flowing through the water pipe 5, the water inlet 21, the water supply pipe 2 and the water outlet 22, the humidity of the concrete 01 is improved, the temperature and the humidity of the concrete 01 are automatically detected through a control circuit in coupling connection with the concrete curing device and the heating strip 3, the concrete 01 is automatically heated or humidified, the workload of personnel in the curing process of the concrete 01 is reduced, and meanwhile, the curing effect of the concrete 01 can be improved.

The above embodiments are preferred embodiments of the present application, and the protection scope of the present application is not limited by the above embodiments, so: all equivalent changes made according to the structure, shape and principle of the present application shall be covered by the protection scope of the present application.

Claims (8)

1. Building house construction structures that integration was pour, its characterized in that: comprises a template (1), a water supply pipe (2), a heating strip (3), a detection device (4), a water pipe (5) and a concrete curing device, wherein the template (1) is provided with a plurality of water irrigation holes (101) and a plurality of detection holes (102), the template (1) is provided with a plurality of filter plugs (103), the filter plugs (103) are arranged in the water irrigation holes (101) in a penetrating way, the water supply pipe (2) comprises a water inlet (21) and a plurality of water outlets (22), the water supply pipe (2) is fixedly connected to one surface of the template (1) far away from concrete (01), the water outlets (22) are respectively aligned with the water irrigation holes (101), the water inlet (21) is arranged on one side of the water supply pipe (2) far away from the template (1), the water inlet (21) is connected with the pipe orifice of the water pipe (5), and the water pipe (5) is connected with the concrete curing device, be provided with in the concrete curing means and be used for water pump (13) that raceway (5) supplied water, detection device (4) wear to locate inspection hole (102) for detect the temperature and the humidity of concrete (01), heating strip (3) fixed connection in template (1), just heating strip (3) electricity connect in concrete curing means, concrete curing means and heating strip (3) are coupled and are had control circuit, control circuit includes:

the temperature detection and comparison module (6) is used for acquiring the temperature detected by the detection device and outputting a temperature detection signal, and the temperature detection and comparison module (6) is provided with a first reference signal Verf1 so as to send out a temperature comparison signal when the temperature detection signal is smaller than the first reference signal Verf 1;

the first switch module (7) is coupled to the temperature detection comparison module (6) and used for sending out a first switch signal when receiving the temperature comparison signal;

the first execution module (8) is coupled to the first switch module (7) and is connected in series in a power supply loop of the heating strip (3) so as to send out a first execution signal when receiving the first switch signal, so that the heating strip (3) generates heat;

the humidity detection and comparison module (9) is used for acquiring the humidity detected by the detection device (4) and outputting a humidity detection signal, and the humidity detection and comparison module (9) is provided with a second reference signal Verf2 so as to send out a humidity comparison signal when the humidity detection signal is smaller than the second reference signal Verf 2;

the second switch module (10) is coupled to the humidity detection comparison module (9) and used for sending out a second switch signal when receiving the humidity comparison signal;

and the second execution module (11) is coupled to the second switch module (10) and is connected in series in a power supply loop of the water pump (13) so as to send out a second execution signal when receiving the second switch signal, and the water pump (13) is started to supply water to the water conveying pipe (5).

2. The integrally cast building construction structure of claim 1, wherein: the outer wall cover of water inlet (21) is equipped with sealing washer (211), one side that sealing washer (211) kept away from template (1) butts in the mouth of pipe of raceway (5).

3. The integrally cast building construction structure of claim 1, wherein: the heating strip (3) comprises a heating core (31) and a heat preservation shell (32), the straight surface of the heating core (31) is tightly attached to the template (1), and the bending surface of the heating core (31) is fixedly connected to the heat preservation shell (32).

4. The integrally cast building construction structure of claim 1, wherein: the detection hole (102) is a threaded hole.

5. The integrally cast building construction structure of claim 1, wherein: and a heat-insulating layer (12) is arranged on one surface of the template (1) far away from the concrete (01).

6. The integrally cast building construction structure of claim 1, wherein: the temperature detection comparison module (6) comprises a temperature sensor and a first comparator N1, the temperature sensor is connected to a power supply loop, a signal output end of the temperature sensor is coupled to an inverted input end of the first comparator N1, a non-inverted input end of the first comparator N1 is coupled to a first reference signal Verf1, and a signal output end of the first comparator N1 is coupled to the first switch module (7) through a first resistor R1.

7. The integrally cast building construction structure of claim 6, wherein: the first switch module (7) comprises a first triode Q1, the base of the first triode Q1 is coupled to the signal output end of the first comparator N1 after passing through a first resistor R1, the collector of the first triode Q1 is coupled to the power supply voltage VCC after being connected in series with a second resistor R2, and the emitter of the first triode Q1 is coupled to the first execution module (8) and then grounded.

8. The integrally cast building construction structure of claim 7, wherein: the first execution module (8) comprises a first relay KM1, one end of a coil of the first relay KM1 is connected in series with an emitter of a first triode Q1, the other end of the coil is grounded, the first relay KM1 comprises a first normally open contact switch KM1-1, and the first normally open contact switch KM1-1 is connected in series with a power supply loop of the heating strip (3).

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