CN111794563B - Concrete pipe pile's intelligent environmental protection maintenance canopy - Google Patents

Abstract

The invention discloses an intelligent environment-friendly curing shed for concrete pipe piles, which relates to the field of buildings and comprises a plastic greenhouse, a curing shed body, a water curing pool, a steam boiler, a kinetic energy conversion device, a circulating pump, a first heat exchanger, a second heat exchanger and a fan assembly.

Description

Concrete pipe pile's intelligent environmental protection maintenance canopy

Technical Field

The invention belongs to the field of buildings, and particularly relates to an intelligent environment-friendly curing shed for concrete pipe piles.

Background

At present, concrete pipe piles are also cured by water, and the method generally comprises the steps of heating water by steam, inputting the heated water into a water curing pool, and then refluxing the heated water into a steam generating device to form a cycle. General concrete pipe pile water curing means all covers the ceiling, and summer or when sunshine is sufficient, the greenhouse effect that the ceiling formed can cause the curing means in the temperature too high, is unfavorable for developing of maintenance work, in addition, the maintenance initial stage, the temperature of the water in the steam generator is low, and the programming rate is slow.

Disclosure of Invention

The invention aims to provide an intelligent environment-friendly curing shed for concrete pipe piles, which aims to overcome the defects caused in the prior art.

An intelligent environment-friendly curing shed for concrete pipe piles comprises a plastic greenhouse, a curing shed body, a water curing pool, a steam boiler, a kinetic energy conversion device, a circulating pump, a first heat exchanger, a second heat exchanger and a fan assembly;

the plastic greenhouse is arranged at the top of the maintenance greenhouse body, the water culture pond, the steam boiler, the kinetic energy conversion device, the circulating pump, the first heat exchanger and the second heat exchanger are all arranged in the maintenance greenhouse body, the water culture pond, the circulating pump, the first heat exchanger and the second heat exchanger are sequentially connected through a water pipe, the fan assembly is arranged at one end of the plastic greenhouse and is connected to an air inlet of the first heat exchanger through an air duct, an air outlet of the first heat exchanger is connected to the other end of the plastic greenhouse through the air duct, and an electromagnetic valve is further arranged on the air duct connected with the first heat exchanger;

the steam boiler is connected to the air inlet of the second heat exchanger through an air pipe, the air outlet of the second heat exchanger flows back to the steam boiler through the air pipe, the steam boiler further forms a cycle through the air pipe and the kinetic energy conversion device, steam pressure is converted into mechanical energy through the kinetic energy conversion device and is output to the driving assembly and the circulating pump of the fan assembly, and the driving assembly transmits the mechanical energy to the fan assembly to achieve the circulation flow of air in the plastic greenhouse.

Preferably, the kinetic energy conversion device comprises a box body, turbine blades, a driving shaft and an output belt wheel, the driving shaft is rotatably connected into the box body, the turbine blades are installed on the driving shaft, a steam inlet is formed in one end of the box body, a steam outlet is formed in the side face of the box body, the steam inlet and the steam outlet are respectively located on two sides of the turbine blades, the output end of the driving shaft is connected to the output belt wheel, and the output belt wheel is respectively connected to the power input end of the circulating pump and the power input end of the driving assembly through a belt.

Preferably, the fan assembly comprises a cover body, a rotating shaft, fan blades and a supporting piece, the cover body is installed at one end of the plastic greenhouse, the rotating shaft is rotatably connected to the supporting piece through a bearing, the supporting piece is fixed inside the cover body, and the fan blades are installed at one end of the rotating shaft;

the utility model discloses a driving assembly, including the axle sleeve, the axle sleeve is fixed in the pivot, and the axle sleeve is fixed in the axle sleeve, and the axle center department of axle sleeve is equipped with splined hole and round hole, and the round hole is located the outside of splined hole, still be equipped with one section and splined hole complex integral key shaft on the outer end of guide block and round hole cooperation and the guide block, the inner end of guide block is round platform shape or sphere, and the tip that is located the pivot of driving assembly one side is equipped with the inner end shape matched with slot with the guide block, and the interior bottom surface of slot is rough surface, the apron is fixed in the outer end of axle sleeve and seals through the heat-conducting plate, and the outer end of apron, heat-conducting plate, axle sleeve and guide block forms an inclosed air chamber, and the air chamber intussuseption is filled with volatile liquid.

Preferably, the maintenance canopy body includes steel structure skeleton and wallboard, the wallboard can be dismantled and connect in steel structure skeleton's the outside.

Preferably, an air supplementing port is further formed in one end, opposite to the fan assembly, of the vinyl house so as to supplement fresh air in the vinyl house.

Preferably, a seedling bed is installed in the plastic greenhouse.

Preferably, the top of the maintenance shed body is also provided with a notch, and a ladder stand is arranged below the notch.

The invention has the advantages that:

(1) according to the invention, the concrete maintenance shed is combined with the traditional plastic greenhouse, so that not only is the conventional maintenance treatment of the concrete pipe pile realized, but also the top of the traditional maintenance shed is divided to be made into the plastic greenhouse, so that on one hand, the room temperature in the maintenance shed is reduced, the development of work is facilitated, and the cooling water flowing out of the water maintenance pool is preheated by virtue of the greenhouse effect in the plastic greenhouse, so that the full utilization of heat energy is realized, on the other hand, as the construction period is generally longer, the corresponding vegetable planting can be carried out by virtue of the plastic greenhouse, the dietary requirements of constructors are relieved, and the functions of the traditional maintenance shed are enriched.

(2) The steam pressure of the steam boiler is used for providing heat energy for the kinetic energy conversion device and then converting the heat energy into mechanical energy to be output to the circulating pump and the driving assembly, on one hand, the circulating pump provides power for water circulation in the maintenance pool, on the other hand, the driving assembly can also drive the fan assembly to operate, so that hot air in the plastic greenhouse is conveyed into the heat exchanger I to preheat cooling water, and then is heated by the heat exchanger II for the second time, the heat energy in the plastic greenhouse is fully utilized, the full utilization of heat in the greenhouse is realized, and the cooled hot air is discharged back into the plastic greenhouse, so that a good cycle is formed.

(3) The driving assembly adopts a special structural design, and can be combined with the rotating shaft in the fan assembly and drive the fan assembly to operate only when the temperature in the vinyl house reaches a certain range, such as more than or equal to 35 ℃, so that the constant temperature control capability is achieved, and the driving assembly is more intelligent.

Drawings

FIG. 1 is a schematic structural diagram of the present invention.

FIG. 2 is a longitudinal internal view of the present invention.

FIG. 3 is a plan view of the maintenance shelter.

Fig. 4 is a partially enlarged view of a portion a in fig. 2.

Fig. 5 is a schematic structural view of the kinetic energy conversion rotating shaft of the present invention.

Fig. 6 is a side view of the bushing of the present invention.

Fig. 7 is a side view of the guide block of the present invention.

FIG. 8 is a partial schematic view of the curing booth according to the present invention.

Wherein: 1-vinyl house, 2-curing house body, 21-framework, 22-wallboard, 3-water curing pool, 4-steam boiler, 5-kinetic energy conversion device, 51-box body, 52-turbine blade, 53-driving shaft, 54-output belt wheel, 55-steam inlet, 56-steam outlet, 6-circulating pump, 7-heat exchanger I, 8-heat exchanger II, 9-fan component, 91-cover body, 92-rotating shaft, 921-slot, 93-fan blade, 94-supporting piece, 10-driving component, 101-driven belt wheel, 102-shaft sleeve, 103-guide block, 1031-spline shaft, 104-cover plate, 105-heat conducting plate, 106-spline hole, 107-round hole, 108-air chamber, 11-water pipe, 12-air duct, 13-air pipe, 14-seedling bed, 15-air supplement port, 16-notch and 17-ladder stand.

Detailed Description

In order to make the technical means, the creation characteristics, the achievement purposes and the effects of the invention easy to understand, the invention is further described with the specific embodiments.

As shown in fig. 1 to 8, an intelligent environment-friendly curing shed for concrete pipe piles comprises a vinyl house 1, a curing shed body 2, a water curing pool 3, a steam boiler 4, a kinetic energy conversion device 5, a circulating pump 6, a first heat exchanger 7, a second heat exchanger 8 and a fan assembly 9;

the plastic greenhouse 1 is arranged at the top of the maintenance greenhouse body 2, the water culture pool 3, the steam boiler 4, the kinetic energy conversion device 5, the circulating pump 6, the first heat exchanger 7 and the second heat exchanger 8 are all arranged in the maintenance greenhouse body 2, the water culture pool 3, the circulating pump 6, the first heat exchanger 7 and the second heat exchanger 8 are sequentially connected through a water pipe 11, the fan assembly 9 is arranged at one end of the plastic greenhouse 1 and connected to an air inlet of the first heat exchanger 7 through an air duct 12, an air outlet of the first heat exchanger 7 is connected to the other end of the plastic greenhouse 1 through an air duct 12, and an electromagnetic valve is further arranged on the air duct 12 connected with the first heat exchanger 7;

the steam boiler 4 is connected to the air inlet of the second heat exchanger 8 through an air pipe 13, the air outlet of the second heat exchanger 8 flows back to the steam boiler 4 through the air pipe 13, the steam boiler 4 forms a cycle through the air pipe 13 and the kinetic energy conversion device 5, steam pressure is converted into mechanical energy through the kinetic energy conversion device 5 and is output to the driving assembly 10 and the circulating pump 6 of the fan assembly 9, and the driving assembly 10 transmits the mechanical energy to the fan assembly 9 to realize the circulating flow of air in the vinyl house 1; the steam boiler 4 may be a gas boiler or an oil boiler, and generates a sufficient amount of steam by heating water.

In the present embodiment, the kinetic energy conversion device 5 includes a box 51, a turbine blade 52, a driving shaft 53 and an output pulley 54, the driving shaft 53 is rotatably connected in the box 51, the turbine blade 52 is mounted on the driving shaft 53, one end of the box 51 is provided with a steam inlet 55, a side surface of the box 51 is provided with a steam outlet 56, the steam inlet 55 and the steam outlet 56 are respectively located at two sides of the turbine blade 52, an output end of the driving shaft 53 is connected to the output pulley 54, and the output pulley 54 is respectively connected to the power input end of the circulation pump 6 and the driving assembly 10 through a belt.

In this embodiment, the fan assembly 9 includes a cover 91, a rotating shaft 92, fan blades 93 and a support 94, the cover 91 is installed at one end of the vinyl house 1, the rotating shaft 92 is rotatably connected to the support 94 through a bearing, the support 94 is fixed inside the cover 91, and the fan blades 93 are installed at one end of the rotating shaft 92;

the driving component 10 is installed at the other end of the rotating shaft 92, and specifically comprises a driven pulley 101, a shaft sleeve 102, a guide block 103, a cover plate 104 and a heat conducting plate 105, the shaft sleeve 102 is rotatably connected to the rotating shaft 92 through a bearing, the driven pulley 101 is fixed at the periphery of the shaft sleeve 102, a spline hole 106 and a round hole 107 are arranged at the axis of the shaft sleeve 102, the round hole 107 is positioned at the outer side of the spline hole 106, the outer end of the guide block 103 is matched with the round hole 107, a section of spline shaft 1031 matched with the spline hole 106 is further arranged on the guide block 103, the inner end of the guide block 103 is in a truncated cone shape or a spherical shape, a slot 921 matched with the inner end of the guide block 103 is arranged at the end part of the rotating shaft 92 at one side of the driving component 10, the inner bottom surface of the slot 921 is a rough surface, the cover plate 104 is fixed at the outer end of the shaft sleeve 102 and sealed by the heat conducting plate 105, a sealed air chamber 108 is formed by the cover plate 104, the heat conducting plate 105, the shaft sleeve 102 and the outer end of the guide block 103, the gas cell 108 is filled with a quantity of volatile liquid, such as ethanol.

When the temperature in the vinyl house 1 reaches a preset temperature, for example, the temperature is more than or equal to 35 ℃, heat is transferred into the air chamber 108 through the heat conducting plate 105, volatile liquid (such as ethanol) can be vaporized and promote the air pressure in the air chamber 108 to increase, the guide block 103 moves towards the rotating shaft 92 along with the continuous increase of the air pressure and finally is in close contact with the rotating shaft 92, so that the kinetic energy of the driven belt pulley 101 is transferred to the fan assembly 9, the fan blades 93 are driven to rotate, and hot air in the vinyl house 1 is sent to the heat exchanger I7; when the air temperature in the vinyl house 1 does not reach the preset temperature, the guide block 103 is separated from the rotating shaft 92, the fan assembly 9 does not operate or operates very slowly and can be ignored, and the first heat exchanger 7 does not operate.

In this embodiment, the maintenance canopy body 2 includes a steel structural framework 21 and a wall panel 22, and the wall panel 22 is detachably connected to the outer side of the steel structural framework 21. After the project is finished, the wallboard 22 can be removed, and a transparent glass plate is installed or a plastic film is laid, so that the maintenance shed body 2 also becomes a plastic greenhouse 1, the maintenance shed body 2 is fully utilized, waste can be utilized, and the removal cost is reduced.

In this embodiment, an air supplement port 15 is further disposed at an end of the vinyl house 1 opposite to the fan assembly 9, so as to supplement fresh air in the vinyl house 1.

In this embodiment, a seedling bed 14 is installed in the vinyl house 1 for planting vegetables, melons and fruits.

In this embodiment, a gap 16 is further formed at the top of the maintenance shelter 2, and a ladder 17 is installed below the gap 16. Can be convenient for people to enter the plastic greenhouse 1 for corresponding planting operation. A door panel is installed at the gap 16 to block it.

The working process and principle of the invention are as follows:

the steam boiler 4 heats the water therein and generates steam, which has two flow directions:

the steam is led to a second heat exchanger 8 through an air pipe 13, water flowing through the second heat exchanger 8 is heated, the heated water is discharged into a water culture pond 3, a concrete pipe pile in the water culture pond 3 is subjected to conventional maintenance treatment, and the water in the water culture pond 3 flows to the first heat exchanger 7 and the second heat exchanger 8 through a circulating pump 6 to form a cycle;

secondly, steam leads to the kinetic energy conversion device 5 through the air pipe 13, the kinetic energy conversion device 5 converts heat energy into mechanical energy and outputs the mechanical energy to the circulating pump 6 and the driving component 10, the driving component 10 transmits power to the fan component 9 again, the fan blades 93 are driven to rotate, hot air in the vinyl house 1 is sent to the heat exchanger I7, cooling water flowing out of the water supply pool 3 is preheated, secondary heating is carried out through the heat exchanger II 8, heat energy in the vinyl house 1 is fully utilized, and the cooled hot air is discharged back to the vinyl house 1, so that good circulation is formed.

In the invention, if the temperature in the vinyl house 1 is low, in order to reduce the heat loss of the air duct 12 to the heat exchanger I7, the electromagnetic valve can be closed, and the communication state between the vinyl house 1 and the heat exchanger I7 can be cut off.

It will be appreciated by those skilled in the art that the invention may be embodied in other specific forms without departing from the spirit or essential characteristics thereof. The embodiments disclosed above are therefore to be considered in all respects as illustrative and not restrictive. All changes which come within the scope of or equivalence to the invention are intended to be embraced therein.

Claims (5)

1. An intelligent environment-friendly curing shed for concrete pipe piles is characterized by comprising a plastic greenhouse (1), a curing shed body (2), a water curing pool (3), a steam boiler (4), a kinetic energy conversion device (5), a circulating pump (6), a first heat exchanger (7), a second heat exchanger (8) and a fan assembly (9);

the plastic greenhouse (1) is arranged at the top of a maintenance greenhouse body (2), the water culture pond (3), the steam boiler (4), the kinetic energy conversion device (5), the circulating pump (6), the heat exchanger I (7) and the heat exchanger II (8) are all arranged in the maintenance greenhouse body (2), the water culture pond (3), the circulating pump (6), the heat exchanger I (7) and the heat exchanger II (8) are sequentially connected through a water pipe (11), the fan assembly (9) is arranged at one end of the plastic greenhouse (1) and connected to an air inlet of the heat exchanger I (7) through an air duct (12), an air outlet of the heat exchanger I (7) is connected to the other end of the plastic greenhouse (1) through the air duct (12), and an electromagnetic valve is further arranged on the air duct (12) connected with the heat exchanger I (7);

the steam boiler (4) is connected to the air inlet of the second heat exchanger (8) through an air pipe (13), the air outlet of the second heat exchanger (8) returns to the steam boiler (4) through the air pipe (13), the steam boiler (4) forms a cycle with the kinetic energy conversion device (5) through the air pipe (13), steam pressure is converted into mechanical energy by means of the kinetic energy conversion device (5) and is output to the driving assembly (10) and the circulating pump (6) of the fan assembly (9), and the driving assembly (10) transmits the mechanical energy to the fan assembly (9) to realize the circulating flow of air in the vinyl house (1);

the kinetic energy conversion device (5) comprises a box body (51), turbine blades (52), a driving shaft (53) and an output belt wheel (54), the driving shaft (53) is connected in the box body (51) in a rotating mode, the turbine blades (52) are installed on the driving shaft (53), a steam inlet (55) is formed in one end of the box body (51), a steam outlet (56) is formed in the side face of the box body (51), the steam inlet (55) and the steam outlet (56) are located on two sides of the turbine blades (52) respectively, the output end of the driving shaft (53) is connected to the output belt wheel (54), and the output belt wheel (54) is connected to a circulating pump (6) and the power input end of the driving assembly (10) through a belt respectively;

the fan assembly (9) comprises a cover body (91), a rotating shaft (92), fan blades (93) and a supporting piece (94), the cover body (91) is installed at one end of the plastic greenhouse (1), the rotating shaft (92) is rotatably connected onto the supporting piece (94) through a bearing, the supporting piece (94) is fixed inside the cover body (91), and the fan blades (93) are installed at one end of the rotating shaft (92);

the driving assembly (10) is installed at the other end of the rotating shaft (92) and specifically comprises a driven pulley (101), a shaft sleeve (102), a guide block (103), a cover plate (104) and a heat conducting plate (105), the shaft sleeve (102) is rotatably connected to the rotating shaft (92) through a bearing, the driven pulley (101) is fixed on the periphery of the shaft sleeve (102), a spline hole (106) and a round hole (107) are formed in the shaft center of the shaft sleeve (102), the round hole (107) is located on the outer side of the spline hole (106), the outer end of the guide block (103) is matched with the round hole (107), a section of spline shaft (1031) matched with the spline hole (106) is further arranged on the guide block (103), the inner end of the guide block (103) is in a truncated cone shape or a sphere, a slot (921) matched with the inner end of the guide block (103) in shape is formed in the end portion of the rotating shaft (92) located on one side of the driving assembly (10), and the inner bottom surface of the slot (921) is a rough surface, the cover plate (104) is fixed at the outer end of the shaft sleeve (102) and sealed through the heat conducting plate (105), the outer ends of the cover plate (104), the heat conducting plate (105), the shaft sleeve (102) and the guide block (103) form a closed air chamber (108), and volatile liquid is filled in the air chamber (108).

2. The intelligent environment-friendly maintenance canopy of concrete pipe pile of claim 1, characterized in that: maintenance canopy body (2) are including steel construction skeleton (21) and wallboard (22), wallboard (22) can be dismantled and connect in the outside of steel construction skeleton (21).

3. The intelligent environment-friendly maintenance canopy of concrete pipe pile of claim 1, characterized in that: and an air supplementing port (15) is also arranged at one end of the plastic greenhouse (1) opposite to the fan assembly (9) so as to supplement fresh air in the plastic greenhouse (1).

4. The intelligent environment-friendly maintenance canopy of concrete pipe pile of claim 1, characterized in that: a seedling bed (14) is arranged in the plastic greenhouse (1).

5. The intelligent environment-friendly maintenance canopy of concrete pipe pile of claim 1, characterized in that: the top of the maintenance shed body (2) is also provided with a notch (16), and a ladder stand (17) is arranged below the notch (16).

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