CN212680571U - Equipment interlayer dehumidification system - Google Patents

Abstract

The utility model provides an equipment interlayer dehumidification system, including the intermediate layer, the intermediate layer is provided with the fan, the fan divide into left fan group and right fan group, arrange in the intermediate layer both sides respectively and fix on the intermediate layer ground through the frame, the fan in each group is parallelly connected each other, the input line of left fan group and right fan group is laid respectively along the intermediate layer edge and is provided with left switch and right switch respectively at the end, one end of intermediate layer is provided with the input bus, the input bus end is parallelly connected left fan group and right fan group, be provided with the master switch on the input bus; fans which are arranged oppositely in the left fan set and the right fan set are connected in parallel, and a standby switch is arranged on a parallel connection line. The utility model discloses be provided with two sets of motors in the intermediate layer, mutual alternation work can promote interbedded circulation of air greatly, reduces air humidity.

Description

Equipment interlayer dehumidification system

Technical Field

The utility model relates to a building field especially relates to an equipment intermediate layer dehumidification system.

Background

The building interlayer can also be called a technical interlayer and an equipment interlayer. Typically used to route dedicated lines and equipment. The building is a floor between two natural floors and is a local level of the internal space of the house, for example, one house is a two-floor building seen from the outside and is three floors seen from the inside, and the middle floor of the three floors is called an interlayer. The building provided with the interlayer is generally a high-rise building or some large common multi-story building. Buildings with interlayers are generally equipped with good shared facilities, such as central air conditioners and central control rooms, and the intellectualization and the sharing of the buildings are very strong, so that more devices are used, and the interlayers are required to be arranged for placing the shared devices for the sake of attractiveness and convenience in arrangement. In addition, in high-rise buildings, refuge floors are required to be arranged according to fire protection requirements, and fire disasters can be concentrated on the floors. The equipment interlayer and the refuge interlayer are shorter than the natural layer, and the main consideration is to save the cost.

The interlayer is usually free of people, generally has few ventilation openings, has relatively poor air ventilation performance, can generate moisture after a long time, has great harm to equipment arranged in the interlayer, and even is condensed into water drops to permeate into floors. Is a great hidden danger for some precision laboratories and medical sites, and therefore, a dehumidification system is required to be arranged.

SUMMERY OF THE UTILITY MODEL

The utility model provides an equipment intermediate layer dehumidification system can improve interbedded circulation of air efficiency, reduces intermediate layer air humidity.

The utility model discloses a realize through following technical scheme:

an equipment interlayer dehumidification system comprises an interlayer, wherein the interlayer is provided with a fan, the fan is divided into a left fan set and a right fan set which are respectively arranged on two sides of the interlayer and fixed on the interlayer ground through a base, the fans in each set are mutually connected in parallel, input circuits of the left fan set and the right fan set are respectively laid along the edge of the interlayer, a left switch and a right switch are respectively arranged at the tail ends of the input circuits, one end of the interlayer is provided with an input bus, the tail end of the input bus is connected with the left fan set and the right fan set in parallel, and a main switch is arranged on the input bus; fans which are arranged oppositely in the left fan set and the right fan set are connected in parallel, and a standby switch is arranged on a parallel connection line.

Preferably, the input line, the input bus and the fan connecting lines are embedded in the interlayer through PVC pipes and are led into the base through enameled wires.

Preferably, the distance between the fans in each group of fans is equal, and the fans arranged oppositely in the left fan group and the right fan group are in the same position.

Preferably, the distance between the fans in each group of fans is equal, the fans arranged in the left fan group and the right fan group oppositely are staggered, the number of the two groups of fans is equal, and the opposite side fans are located on a perpendicular bisector of a connecting line of the two fans corresponding to different sides.

Preferably, the main switch, the left switch, the right switch and the standby switch are all double-pole switches.

Preferably, the fans are provided with normal working state indicating lamps and are led into the switch cabinet, and the switch cabinet is provided with starting switches of all the fans and control switches of the main switch, the left switch, the right switch and the standby switch.

The utility model discloses be provided with two sets of motors in the intermediate layer, mutual alternation work can promote interbedded circulation of air greatly, reduces air humidity.

Drawings

Fig. 1 is a schematic diagram of an equipment interlayer dehumidification system in an embodiment of the present invention.

The reference numbers are as follows:

1. a left fan set; 2. a right fan set; 3. an input bus; 4. a left switch; 5. a right switch; 6. a standby switch; 7. a fan; 8. and (4) a master switch.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more clearly understood, the present invention is further described in detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.

The equipment interlayer dehumidification system shown in fig. 1 comprises an interlayer, wherein a fan 7 is arranged on the interlayer, the fan 7 is divided into a left fan set 1 and a right fan set 2 which are respectively arranged on two sides of the interlayer and fixed on the interlayer ground through a base, the fans 7 in each set are mutually connected in parallel, input lines of the left fan set 1 and the right fan set 2 are respectively laid along the edge of the interlayer, a left switch 4 and a right switch 5 are respectively arranged at the tail ends of the input lines, an input bus 3 is arranged at one end of the interlayer, the tail end of the input bus 3 is connected in parallel with the left fan set 1 and the right fan set 2, and a main switch 8 is arranged on the input bus 3; fans 7 which are arranged oppositely in the left fan set 1 and the right fan set 2 are connected in parallel, and a standby switch 6 is arranged on a parallel connection line.

In this embodiment, input line, input bus 3, and each fan 7 interconnecting link are pre-buried in the intermediate layer through the PVC pipe respectively to introduce in the frame through the enameled wire, improve the security.

In this embodiment, the distance between the fans 7 in each fan set is equal, and the fans 7 arranged in the left fan set 1 and the right fan set 2 relatively are at the same position.

The utility model discloses an in embodiment 2, the distance equals between 7 inside fans of every group fan 7, and staggers each other in relative fan 7 position that sets up in left fan group 1 and the right fan group 2, and the quantity of two sets of fans 7 equals, and contralateral fan 7 is located the perpendicular bisector of the corresponding two fans 7 lines in different sides, and all motors can be controlled to start simultaneously to this kind of mode, improves system efficiency.

In this embodiment, master switch 8, left switch 4, right switch 5 and stand-by switch 6 are the double-pole switch, because fan 7 is more in quantity, and the simultaneous working is that the electric current is great, and the security can be guaranteed to the double-pole switch.

In this embodiment, all be provided with normal operating condition pilot lamp on the fan 7 and introduce the cubical switchboard in, be provided with all fan 7 in the cubical switchboard starting switch and master switch 8, left switch 4, right switch 5, stand-by switch 6's control switch can operate entire system through the cubical switchboard, can also realize automated control through the procedure, avoids the people to operate in the intermediate layer, and efficiency is higher.

When the embodiment is used, the main switch 8 is closed, the left switch 4 or the right switch 5 is closed respectively and independently, one group is closed at a time, the other group is used for standby, and replacement can be performed when a certain group fails. When a single motor in a certain group breaks down, the motor can be detached for maintenance, and meanwhile, the standby switch 6 in the corresponding position is closed, so that the air circulation in the area is ensured. The left switch 4 and the right switch 5 can also be combined into a two-pole two-wire switch to facilitate switching, but this approach is not suitable for embodiment 2.

The above description is only exemplary of the present invention and should not be taken as limiting the scope of the present invention, as any modifications, equivalents, improvements and the like made within the spirit and principles of the present invention are intended to be included within the scope of the present invention.

Claims (6)

1. An equipment interlayer dehumidification system is characterized by comprising an interlayer, wherein the interlayer is provided with a fan, the fan is divided into a left fan set and a right fan set which are respectively arranged on two sides of the interlayer and fixed on the interlayer ground through a base, the fans in each set are mutually connected in parallel, input lines of the left fan set and the right fan set are respectively laid along the edge of the interlayer, a left switch and a right switch are respectively arranged at the tail ends of the input lines, one end of the interlayer is provided with an input bus, the tail end of the input bus is connected with the left fan set and the right fan set in parallel, and a main switch is arranged on the input bus; fans which are arranged oppositely in the left fan set and the right fan set are connected in parallel, and a standby switch is arranged on a parallel connection line.

2. The equipment interlayer dehumidification system of claim 1, wherein the input line, the input bus, and each fan connection line are pre-embedded in the interlayer through PVC pipes, and are introduced into the base through enameled wires.

3. The equipment interlayer dehumidification system of claim 1, wherein the fans inside each group of fans are equidistant, and the fans arranged opposite to each other in the left fan group and the right fan group are located at the same position.

4. The equipment interlayer dehumidification system of claim 1, wherein the fans in each set are equidistant, the fans arranged opposite to each other in the left fan set and the right fan set are staggered, the number of the two sets of fans is equal, and the opposite fans are located on a perpendicular bisector of a connecting line of the two fans corresponding to different sides.

5. The system of claim 1, wherein the main switch, the left switch, the right switch, and the backup switch are all double-pole switches.

6. The equipment interlayer dehumidification system as claimed in claim 1, wherein the fans are provided with normal operation status indicators and are led into a switch cabinet, and the switch cabinet is provided with start switches of all the fans and control switches of the main switch, the left switch, the right switch and the standby switch.

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