CN219955517U - Temporary air circulation dehumidification system for basement - Google Patents

Abstract

The utility model discloses a temporary air circulation dehumidification system for a basement, which comprises a plurality of sets of air exhaust combination systems for vertically and upwards blowing and a plurality of blowers for horizontally blowing, wherein each set of air exhaust combination system is arranged at a reserved hole of the basement, the plurality of blowers are arranged at intervals along the inner edge of the basement, and each blower horizontally blows towards the next blower. According to the utility model, a plurality of pumping and exhausting air supply points are established at the reserved hole of the basement, and the forced ventilation dehumidification effect is achieved by matching with the blowers which are arranged at intervals along the inner edge of the basement.

Description

Temporary air circulation dehumidification system for basement

Technical Field

The utility model relates to the technical field of basement construction, in particular to a temporary air circulation dehumidification system for a basement.

Background

A great feature of basements compared to ground engineering is that they are wet. When the formal exhaust system of the basement is not started, in the moist environment, particularly a multi-layer basement, the indoor wall surface and the indoor bottom surface are easy to be damped and mildewed, the indoor air quality can be deteriorated, the difficulty of paint construction is increased, and the damping phenomenon can occur in the putty after the construction is finished, so that the construction quality and the construction time are influenced.

At present, the existing conventional dehumidification mode is to install a plurality of temporary exhaust fans for horizontally exhausting air in the whole basement, and the flow speed of indoor air is accelerated through the plurality of exhaust fans for horizontally exhausting air, so that the dehumidification purpose is achieved. However, the dehumidification system described above does not communicate with the outdoor air, and thus cannot discharge the indoor humid air, and the dehumidification efficiency is very low.

Disclosure of Invention

The utility model provides a temporary air circulation dehumidification system for a basement, which aims to solve the problem that the existing dehumidification mode cannot discharge indoor humid air and has very low dehumidification efficiency.

The technical scheme of the utility model is as follows:

the utility model provides a temporary air circulation dehumidification system of basement, includes the combination system of airing exhaust that a plurality of sets of vertical upwards bloies and the air-blower that a plurality of level bloied, every set the combination system of airing exhaust is all installed in one reserved entrance to a cave department of basement, and a plurality of the air-blower is followed the inside marginal interval arrangement of basement, and every the air-blower is all towards next the air-blower direction level bloies.

According to the temporary air circulation dehumidification system for the basement of the scheme, the exhaust combination system comprises the exhaust fan with the vertical upward blowing and the ventilation pipe bag with the vertical setting, the bottom of the ventilation pipe bag is completely wrapped by the exhaust fan, and the top of the ventilation pipe bag extends to the reserved hole to be communicated with the outside air.

According to the temporary air circulation dehumidification system for the basement, the exhaust fan is fixed on the ground right below the reserved hole through the steel pipe frame.

According to the temporary air circulation dehumidification system for the basement of the scheme, the ventilation pipe bag is fixed below the reserved hole through the standard section of the tower crane, the steel pipe frame is of a 'well' -shaped structure formed by binding two first support steel pipes which are parallel to each other and two second support steel pipes which are parallel to each other, two ends of the first support steel pipes are fixed corresponding to the standard section of the tower crane relatively, two ends of the second support steel pipes are fixed with two sides corresponding to the standard section of the tower crane, and the exhaust fan is fixed above the middle of the 'well' -shaped structure.

According to the temporary air circulation dehumidification system for the basement, the distance between the air outlet of the exhaust fan and the ground is 1-2 meters.

According to the temporary air circulation dehumidification system for the basement, the distance between the air outlet of the exhaust fan and the ground is 1.5 meters.

According to the temporary air circulation dehumidification system for the basement, the bottom of the ventilation pipe bag is completely wrapped on the exhaust fan and then bound and fixed through the steel ribbon.

According to the temporary air circulation dehumidification system for the basement, the ventilation pipe bag is fixed below the reserved hole through the standard section of the tower crane.

According to the temporary air circulation dehumidification system for the basement, the vertical ladder is arranged in the standard section of the tower crane, a plurality of protection rings which are distributed at intervals up and down are arranged on one side of the vertical ladder, the top of the ventilation pipe bag penetrates through the protection rings to extend to the reserved hole, and the ventilation pipe bag is bound and fixed with the penetrated protection rings.

According to the temporary air circulation dehumidification system for the basement, the air outlet of the ventilation pipe bag is provided with the dense mesh safety net.

According to the temporary air circulation dehumidification system for the basement, the ventilation pipe bag is a non-ventilation nylon Long Budai.

According to the temporary air circulation dehumidification system for the basement, each set of exhaust combination system is provided with an independent distribution box, and the distribution boxes are electrically connected with the exhaust air.

According to the temporary air circulation dehumidification system for the basement, the distribution box is fixed on a standard section of the tower crane.

According to the temporary air circulation dehumidification system for the basement, the blower is horizontally arranged on the inner edge of the basement through the supporting frame.

According to the utility model of the scheme, the beneficial effects of the utility model are as follows:

1. according to the temporary air circulation dehumidification system for the basement, provided by the utility model, through establishing a plurality of pumping and exhausting air supply points at the reserved hole of the basement and matching with the blowers arranged at intervals along the inner edge of the basement, the circulating flow of the indoor and outdoor air of the basement is realized, the forced ventilation dehumidification effect is achieved, the problems that the indoor space air is not circulated, the quality is poor, the humidity is high and the like when the formal exhaust system for the basement is not started up are solved, the prepositive condition is created for paint construction, and the putty after construction is finished has no moisture regaining phenomenon;

2. air is pumped and exhausted at a reserved hole of the basement, so that air flow is easy to form, the work efficiency is improved, and a large amount of energy and labor are saved;

3. the basement temporary air circulation dehumidification system is convenient to disassemble in the later period, material equipment can be amortized and circulated, for example, an exhaust fan and a ventilation pipe bag can be recycled, the recovery rate is more than or equal to 90%, and the basement temporary air circulation dehumidification system has the advantages of economy, applicability, cost saving and environmental protection;

4. the vent pipe bag is made of common nylon Long Budai, and raw materials are convenient to purchase;

5. only one exhaust fan and nylon Long Budai are arranged at a single pumping and exhausting air supply point, so that the device is very convenient to install, two people can assemble the device conveniently, and the nylon cloth bag is high in plasticity and flexibility;

6. each set of exhaust combination system is provided with an independent distribution box, and controls the exhaust fan to automatically ventilate and dehumidify at regular time, so that the air in the basement is in a flowing state for a long time, and the air quality is ensured.

Drawings

FIG. 1 is a plan view of a temporary air circulation dehumidification system for a basement in accordance with the present utility model;

FIG. 2 is a side view of the exhaust stack of the present utility model;

FIG. 3 is a top view of the exhaust assembly of the present utility model;

fig. 4 is a bottom view of the exhaust assembly system of the present utility model.

In the drawing of the figure,

1. an exhaust combination system; 11. an exhaust fan; 12. a vent bag; 13. a steel pipe rack; 131. a first support steel pipe; 132. a second support steel pipe; 14. standard section of tower crane; 15. erecting a ladder; 16. a guard ring; 17. a dense mesh safety net; 18. a distribution box; 19. a connecting piece; 2. a blower; 3. a basement; 31. and reserving a hole.

Description of the embodiments

In order to make the technical problems, technical schemes and beneficial effects to be solved more clear, the utility model is further described in detail below with reference to the accompanying drawings and embodiments.

It should be noted that, the terms "mounted," "configured," "connected," "fixed," and the like should be construed broadly, and may be, for example, fixedly connected, detachably connected, or integrated; can be mechanically or electrically connected; either directly or indirectly, through intermediaries, or both, may be in communication with each other or in interaction with each other, unless expressly defined otherwise. The directions or positions indicated by the terms "upper", "lower", "top", "bottom" and the like are directions or positions based on those shown in the drawings, and are merely for convenience of description, and are not to be construed as limiting the present technical solution. The terms "first," "second," and "second" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance or implicitly indicating the number of technical features. The meaning of "a plurality of" is two or more, unless specifically defined otherwise. The meaning of "a number" is one or more than one unless specifically defined otherwise.

Referring to fig. 1, the present embodiment provides a temporary air circulation dehumidification system for a basement 3, which is used temporarily when a formal exhaust system of the basement 3 is not started, and achieves the effect of forced ventilation and dehumidification by establishing a plurality of pumping and exhausting air supply points to realize the circulation of air inside and outside the basement 3. The temporary air circulation dehumidification system for the basement comprises a plurality of sets of air exhaust combined systems 1 which are vertically and upwards blown and a plurality of sets of air blowers 2 which are horizontally blown, wherein each set of air exhaust combined system 1 is a pumping and exhausting air supply point, each set of air exhaust combined system 1 is arranged at one reserved hole 31 of the basement 3, the plurality of air blowers 2 are arranged at intervals along the inner edge of the basement 3, each air blower 2 is horizontally blown towards the direction of the next air blower 2, and the air exhaust combined system 1 and the air blowers 2 form a complete air circulation dehumidification system, so that the purpose of air circulation is effectively achieved, and meanwhile, the temporary air circulation dehumidification system for the basement has the advantages of saving materials, being short in passage and being high in efficiency. It should be noted that the coverage area of the air exhaust is about 1000-1500 square meters in consideration of the single air exhaust and supply point position, and the position selection of the air exhaust combined system 1 is important, so that the construction cannot be influenced, the larger coverage is satisfied, and the comprehensive consideration is required according to the actual situation of the site.

Referring to fig. 2 to 4, specifically, the exhaust combined system 1 includes an exhaust fan 11 that blows vertically upwards and a ventilation pipe bag 12 that is vertically arranged, the exhaust fan 11 is vertically upwards arranged on the ground right below the reserved hole 31 through a steel pipe rack 13, and the distance between the air outlet of the exhaust fan 11 and the ground is 1 to 2 meters, preferably 1.5 meters, so that the indoor humid air can be discharged out of the room through the ventilation pipe bag 12 to the greatest extent; the bottom of the ventilation pipe bag 12 completely wraps the exhaust fan 11 and is reliably fixed by adopting steel strapping to bind, so that air leakage is reduced, and the top of the ventilation pipe bag 12 extends to the reserved hole 31 to be communicated with outside air, so that moist air in the basement 3 is discharged out of the room. The ventilation pipe bag 12 of the embodiment adopts a common nylon cloth bag which is airtight, reduces the wind power loss between the air suction and the air exhaust, thereby reducing the energy consumption and facilitating the purchase of raw materials.

Because the vertical height of the basement 3 is larger, such as a 4-layer basement, the vertical height can reach 18m, if the middle part of the ventilation pipe bag 12 is not fixed, the ventilation pipe bag 12 can shake randomly during air exhaust to generate potential safety hazards. Therefore, the ventilation pipe bag 12 is fixed below the reserved hole 31 by adopting the tower crane standard knot 14, so that potential safety hazards caused by turbulent shaking of the ventilation pipe bag 12 during exhaust are avoided. The tower crane standard knot 14 that this embodiment adopted is provided with the vertical ladder 15 in, and one side of vertical ladder 15 is provided with a plurality of upper and lower interval distribution's protection ring 16, and protection ring 16 is passed at the top of ventilation pipe bag 12 extends to reserved entrance to a cave 31 department, and ventilation pipe bag 12 and the protection ring 16 ligature that passes are fixed.

In addition, in order to prevent various objects on the outdoor building site from falling along the vent pipe bag 12 to damage the exhaust fan 11 below, the embodiment is provided with a dense mesh safety net 17 at the exhaust outlet of the vent pipe bag 12, and the dense mesh safety net 17 can effectively prevent various objects on the outdoor building site from entering the vent pipe bag 12 to generate a buffer blocking effect on falling objects.

Referring to fig. 2, in an alternative embodiment, each exhaust combination system 1 is provided with an independent distribution box 18, the distribution boxes 18 are electrically connected with the exhaust fans 11, the distribution boxes 18 are fixed on the tower crane standard sections 14, and the distribution boxes 18 control the exhaust fans 11 to automatically and regularly ventilate and dehumidify, so that the air in the basement 3 is in a flowing state for a long time, and the air quality is ensured.

Referring to fig. 3, in an alternative embodiment, the area of the dense mesh safety net 17 is set according to the area of the air outlet of the ventilation pipe bag 12, and in practical application, the area of the dense mesh safety net 17 is an integer multiple of the area of the air outlet of the ventilation pipe bag 12, so that the air outlet of the ventilation pipe bag 12 is conveniently matched with the connecting piece 19 on the dense mesh safety net 17. A plurality of connecting pieces 19 matched with the vent pipe bags 12 are arranged around the dense mesh safety net 17 at equal intervals. The connecting piece 19 selected in the embodiment is at least one of a hook, a rope and a steel wire, and the hook, the rope or the steel wire or the combination of two or three of the hook, the rope and the steel wire can be adopted according to actual needs or construction conditions.

Referring to fig. 4, in an alternative embodiment, the steel tube frame 13 is a "well" structure formed by binding two parallel first support steel tubes 131 and two parallel second support steel tubes 132, two ends of the first support steel tubes 131 are fixed correspondingly opposite to the tower crane standard section 14, two ends of the second support steel tubes 132 are fixed correspondingly opposite to two sides of the tower crane standard section 14, and the exhaust fan 11 is fixed above the middle of the "well" structure. The steel pipe frame 13 is simple in structure, convenient to install and detach and capable of stably fixing the exhaust fan 11.

In an alternative embodiment, the blowers 2 are horizontally arranged on the inner edge of the basement 3 by a support frame, so that each blower 2 blows horizontally towards the next blower 2. In addition, the structure of the supporting frame is not limited, and the supporting frame can only support the blower 2 and enable the blower 2 to blow horizontally, so that a person skilled in the art can freely select the supporting frame in the prior art.

It will be understood that modifications and variations will be apparent to those skilled in the art from the foregoing description, and it is intended that all such modifications and variations be included within the scope of the following claims.

While the utility model has been described above with reference to the accompanying drawings, it will be apparent that the implementation of the utility model is not limited by the above manner, and it is within the scope of the utility model to apply the inventive concept and technical solution to other situations as long as various improvements made by the inventive concept and technical solution are adopted, or without any improvement.

Claims (10)

1. The temporary air circulation dehumidification system for the basement is characterized by comprising a plurality of sets of air exhaust combination systems which are used for blowing upwards vertically and a plurality of blowers which are used for blowing horizontally, wherein each set of air exhaust combination system is arranged at a reserved hole of the basement, the plurality of blowers are arranged at intervals along the inner edge of the basement, and each blower is used for blowing horizontally towards the next blower.

2. The temporary air circulation dehumidification system of a basement according to claim 1, wherein the exhaust combination system comprises an exhaust fan with vertically upward blowing and a vertically arranged ventilation pipe bag, the bottom of the ventilation pipe bag completely wraps the exhaust fan, and the top of the ventilation pipe bag extends to the reserved hole to be communicated with the outside air.

3. The temporary air circulation dehumidification system of a basement of claim 2, wherein the exhaust fan is secured to the ground directly below the reserved opening by a steel pipe rack.

4. A temporary air circulation dehumidification system for a basement according to claim 3, wherein the distance from the air outlet of the exhaust fan to the ground is 1 to 2 meters.

5. The temporary air circulation dehumidification system of a basement of claim 2, wherein the bottom of the ventilation tube bag is bound and fixed by a steel tie after completely wrapping the exhaust fan.

6. The temporary air circulation dehumidification system of a basement of claim 2, wherein the vent bag is secured below the reserved opening by a tower crane standard knot.

7. The temporary air circulation dehumidification system of a basement according to claim 6, wherein a vertical ladder is arranged in a standard section of the tower crane, a plurality of protection rings which are distributed vertically at intervals are arranged on one side of the vertical ladder, the top of the ventilation pipe bag penetrates through the protection rings to extend to the reserved hole, and the ventilation pipe bag is bound and fixed with the penetrated protection rings.

8. The temporary air circulation dehumidification system of a basement of claim 2, wherein an air outlet of the vent bag is provided with a mesh-dense safety net.

9. The temporary air circulation dehumidification system of a basement of claim 2, wherein the vent bag is a non-breathable nylon Long Budai.

10. The temporary air circulation dehumidification system of basement according to claim 2, wherein each of said exhaust stack systems is equipped with a separate electrical box electrically connected to said exhaust.