CN218603130U - Dampproofing block terminal - Google Patents

Abstract

The utility model discloses a dampproof distribution box, which comprises a distribution box body, wherein a supporting seat is arranged below the distribution box body, and the supporting seat can lift the distribution box body to a preset height; the air exchange structure is arranged on the side surface of the distribution box body and used for ventilation in the distribution box body; the first dehumidification structure is arranged on the inner lower surface of the distribution box body and used for dehumidifying and damp-proofing the distribution box body; circulation structure, circulation structure settles in distribution box side surface, the utility model relates to a block terminal field, effectually prevented to produce the vapor after the heating and cause the damage to the electrical component in the block terminal, mutually support to this reaches better dampproofing effect, and the structure is simple relatively, convenient to use.

Description

Dampproofing block terminal

Technical Field

The utility model relates to a block terminal field specifically is a dampproofing block terminal.

Background

The distribution box is a mass parameter on data, generally forms a low-voltage forest according to electrical wiring, and requires that a switch device, a measuring instrument, a protective electrical appliance and an auxiliary device are assembled in a closed or semi-closed metal cabinet or on a screen to form the low-voltage distribution box. In normal operation, the circuit can be switched on or off by means of a manual or automatic switch.

In the prior art, the patent numbers are: ZL201420859498.2, patent name: in "a moisture-proof distribution box", the background art mentions: "what current outdoor distribution box adopted mostly is the fixed block terminal of metal console mode, and this block terminal comprises the metal material, causes the influence to the components and parts of the internal installation of cabinet, because when the installation, the bottom surface of block terminal often exceeds ground. But the too high height increases the installation cost when installing; when the installation is low excessively, the life-span of block terminal and the operating condition of components and parts in the cabinet body can greatly be influenced to moisture. ", effects mention: "the utility model discloses all laid the electric heat net in the bottom and the medial surface of block terminal, and be connected with humidity transducer, when humidity in the block terminal reaches an definite value, the sensor switches on, and the electric heat net is connected with the power and is produced the heat, avoids the moisture to condense in the block terminal, reaches damp-proofing effect. As a further improvement of the utility model, the bottom end and the top end of the distribution box body are respectively provided with an air vent; and an air blower is arranged at the vent hole at the top end of the distribution box body. Adopt the block terminal of this structure, vapor in the block terminal lower part can blow off through the air-blower, has further improved the utility model discloses a dampproofing effect. As a further improvement, the top of the distribution box body is provided with a stop dog for preventing rainwater from flowing in. And bagged quicklime is arranged in the distribution box body. This dampproofing block terminal reaches damp-proofing effect with this through heating, but when moisture was too big, still can form vapor simultaneously, causes the interior equipment of block terminal to damage very easily.

Therefore, in order to solve the problem, it is necessary to design a moisture-proof distribution box.

SUMMERY OF THE UTILITY MODEL

Not enough to prior art, the utility model provides a dampproofing block terminal has solved dampproofing block terminal and has reached damp-proofing effect with this through the heating, but when moisture was too big, still can form vapor simultaneously, causes the problem of distribution box internal plant damage very easily.

In order to achieve the above purpose, the utility model discloses a following technical scheme realizes: a moisture resistant electrical distribution box comprising:

the power distribution box comprises a power distribution box body, wherein a supporting seat is arranged below the power distribution box body, and the supporting seat can lift the power distribution box body to a preset height;

the air exchange structure is arranged on the side surface of the distribution box body and used for ventilation in the distribution box body;

the first dehumidification structure is arranged on the inner lower surface of the distribution box body and used for dehumidifying and damp-proofing the distribution box body;

a circulating structure disposed at a side surface of the distribution box body;

the second dehumidification structure is arranged on the circulation structure and is used for dehumidifying and moistureproof in the distribution box body;

the rainproof structure is arranged on the upper surface of the distribution box body and used for preventing rain.

Preferably, the ventilation structure comprises: a rain-proof part and a ventilation part;

the side surface of the distribution box body is provided with a rectangular opening, the ventilation portion is arranged at the rectangular opening, and the rainproof portion is arranged at the rectangular opening.

Preferably, the rain shield portion includes: a pair of rain-proof housings;

each rainproof shell is arranged at the corresponding rectangular opening;

the ventilation unit includes: a first air intake fan and a first exhaust fan;

the first air inlet fan is arranged at one of the rectangular openings, the first air inlet fan is arranged at the other rectangular opening, and dust screens are arranged on the first air inlet fan and the first exhaust fan.

Preferably, the first dehumidifying structure includes: partition plate and heating resistance wire;

the internal lower surface of block terminal is equipped with the rectangle recess, the heating resistor silk is settled in the rectangle recess, the partition panel is settled in rectangle groove, be equipped with a plurality of ventilation hole on the partition panel.

Preferably, the circulation structure comprises: a circulating part and a transmitting part;

the transfer portion is disposed at a side surface of the power distribution box body, and the circulation portion is disposed at the transfer portion.

Preferably, the transfer part includes: a delivery conduit;

the transmission pipeline is arranged on the side surface of the distribution box body and communicated with the interior of the distribution box body;

the circulation section includes: a second air intake fan and a second exhaust fan;

the second air inlet fan is arranged in the conveying pipeline, the second exhaust fan is arranged in the conveying pipeline, and the second air inlet fan is located above the second exhaust fan.

Preferably, the second dehumidifying structure includes: a bearing part and a drying part;

the bearing part is arranged on the conveying pipeline, the bearing part is positioned between the second air inlet fan and the second exhaust fan, and the drying part is arranged in the bearing part.

Preferably, the bearing part includes: a bearing shell and a stop door;

the bearing shell is arranged on the conveying pipeline, a rectangular opening is formed in the side surface of the bearing shell, the stop door is arranged at the rectangular opening, and the bearing shell is communicated with the conveying pipeline;

the drying part includes: drying the core;

the drying core is disposed within a carrier housing.

Preferably, the rain protection structure comprises: a rain-proof shed;

the rain-proof shed is arranged on the upper surface of the distribution box body.

Preferably, a controller is arranged in the distribution box body.

Advantageous effects

The utility model provides a dampproofing block terminal. The method has the following beneficial effects: this dampproofing block terminal can be better dampproofing to the block terminal, and it is troublesome to have reduced unnecessary, makes it can reach better dampproofing effect through dehumidification, heating, and the effectual steam that has prevented after the heating from causing the damage to the electrical component in the block terminal, mutually supports to this reaches better dampproofing effect, and the structure is simple relatively, convenient to use.

Drawings

Fig. 1 is the utility model relates to a structural schematic diagram of dampproofing block terminal.

Fig. 2 is a main view structure diagram of a dampproofing block terminal.

Fig. 3 is a front view of the moisture-proof distribution box of the present invention.

Fig. 4 is a top view of the moisture-proof distribution box of the present invention.

Fig. 5 is a side view of the moisture-proof distribution box of the present invention.

In the figure:

the power distribution box comprises a power distribution box body 10, a support base 20, an air exchange structure 30, a first dehumidification structure 40, a circulation structure 50, a second dehumidification structure 60, a rainproof structure 70 and a controller 80;

a rainproof housing 31, a first air inlet fan 32 and a first exhaust fan 33;

a partition plate 41, a heating resistance wire 42;

a conveying duct 51, a second air intake fan 52, a second exhaust fan 53;

a bearing shell 61, a shutter 62 and a drying core 63;

rain-proof shed 71.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative efforts all belong to the protection scope of the present invention.

Referring to fig. 1-5, the present invention provides a technical solution: the power distribution box comprises a power distribution box body 10, wherein a support seat 20 is arranged below the power distribution box body 10, and the support seat 20 can lift the power distribution box body 10 to a preset height; the air exchange structure 30 is arranged on the side surface of the distribution box body 10, and the air exchange structure 30 is used for ventilation in the distribution box body 10; the first dehumidifying structure 40, the first dehumidifying structure 40 is arranged on the inner lower surface of the distribution box body 10, the first dehumidifying structure 40 is used for dehumidifying and damp-proofing the inside of the distribution box body 10; the circulating structure 50, the circulating structure 50 is arranged on the side surface of the distribution box body 10; a second dehumidifying structure 60, wherein the second dehumidifying structure 60 is disposed on the circulating structure 50, and the second dehumidifying structure 60 is used for dehumidifying and damp-proofing the inside of the distribution box body 10; a rain-proof structure 70, the rain-proof structure 70 is disposed on the upper surface of the power distribution box 10, and the rain-proof structure 70 is used for preventing rain.

Trade wind structure 30 and be used for dispelling the heat in the distribution box body 10 and take a breath, first dehumidification structure 40 is used for dehumidifying in the distribution box body 10, and loop construction 50 is used for carrying out the dehumidification circulation to the incasement gas, and second dehumidification structure 60 is used for dehumidifying in the distribution box body 10, and rain-proof structure 70 is used for preventing rain.

Preferably, the ventilation structure 30 comprises: a rain-proof part and a ventilation part; the side surface of the distribution box body 10 is provided with a rectangular opening, the air exchange part is arranged at the rectangular opening, and the rain-proof part is arranged at the rectangular opening.

Preferably, the rain shield includes: a pair of rain-proof housings 31; each rain-proof housing 31 is arranged at a corresponding rectangular opening; the ventilation part comprises: a first intake fan 32 and a first exhaust fan 33; the first air inlet fan 32 is disposed at one of the rectangular openings and disposed at the other rectangular opening, and dust screens are disposed on the first air inlet fan 32 and the first exhaust fan 33.

The rain-proof housing 31 can prevent the rainwater from entering the power distribution box 10 through the first air inlet fan 32 and the first exhaust fan 33 to a limited extent, and the power distribution box 10 can be ventilated through the first air inlet fan 32 and the first exhaust fan 33

Preferably, the first dehumidifying structure 40 includes: a partition plate 41 and a heating resistance wire 42; the lower surface is equipped with the rectangle recess in the distribution box 10, and heating resistor wire 42 settles in the rectangle recess, and partition panel 41 settles in rectangle groove department, is equipped with a plurality of ventilation hole on the partition panel 41.

The interior of the distribution box body 10 is heated by controlling the heating resistance wires 42 below the partition plate 41, so that the dehumidification is performed.

Preferably, the circulation structure 50 comprises: a circulating part and a transmitting part; the transfer portion is disposed at a side surface of the power distribution cabinet 10, and the circulation portion is disposed at the transfer portion.

Preferably, the transfer part includes: a delivery duct 51; the conveying pipeline 51 is arranged on the side surface of the distribution box body 10, and the conveying pipeline 51 is communicated with the interior of the distribution box body 10; the circulation section includes: a second intake fan 52 and a second exhaust fan 53; the second air intake fan 52 is disposed in the conveying duct 51, the second exhaust fan 53 is disposed in the conveying duct 51, and the second air intake fan 52 is located above the second exhaust fan 53.

The air in the distribution box 10 is circulated by the second air intake fan 52 and the second air discharge fan 53 in the transfer duct 51 and the transfer duct 51.

Preferably, the second dehumidifying structure 60 includes: a bearing part and a drying part; the bearing part is disposed on the conveying pipe 51, the bearing part is located between the second air inlet fan 52 and the second air outlet fan 53, and the drying part is disposed in the bearing part.

Preferably, the bearing part includes: a carrier case 61 and a shutter 62; the bearing shell 61 is arranged on the conveying pipeline 51, a rectangular opening is formed in the side surface of the bearing shell 61, the stop door 62 is arranged at the rectangular opening, and the bearing shell 61 is communicated with the conveying pipeline 51; the drying part includes: a drying core 63; the drying core 63 is disposed within the carrier housing 61.

The air for internal circulation is dehumidified by the drying core 63, and the drying core 63 can be replaced by opening the shutter 62 on the carrying case 61.

Preferably, flashing structure 70 includes: a rain-proof shed 71; the weather enclosure 71 is disposed on the upper surface of the distribution box 10.

The rain-proof shed 71 is used for rain-proofing.

Preferably, a controller 80 is provided within the power distribution cabinet 10.

A controller 80 within the power distribution cabinet 10 is used to control all electrical structures.

Firstly, all equipment is connected to a power supply of the distribution box, the controller 80 is turned on, when ventilation and heat dissipation are needed, the controller 80 controls the first air inlet fan 32 and the first air outlet fan 33 to be started, so that heat dissipation and air dissipation are carried out in the distribution box body 10, when dehumidification is needed, the heating resistance wires 42 are controlled by the controller 80 to be heated, moisture is evaporated, meanwhile, the second air inlet fan 52 and the second air outlet fan 53 on the conveying pipeline 51 are turned on, the evaporated moisture enters the bearing shell 61 through the conveying pipeline 51, drying is carried out through the drying core 63, and the moisture is conveniently discharged back into the distribution box body 10.

It should be noted that, in this document, relational terms such as first and second, and the like are used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Also, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus. Without further limitation. The use of the phrase "comprising one of the elements does not exclude the presence of other like elements in the process, method, article, or apparatus that comprises the element.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that various changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (10)

1. A moisture resistant electrical distribution box, comprising:

the power distribution box comprises a power distribution box body (10), wherein a supporting seat (20) is arranged below the power distribution box body (10), and the supporting seat (20) can lift the power distribution box body (10) to a preset height;

the air exchange structure (30), the air exchange structure (30) is arranged on the side surface of the power distribution box body (10), and the air exchange structure (30) is used for ventilating the power distribution box body (10);

the first dehumidification structure (40), the first dehumidification structure (40) is arranged on the inner lower surface of the distribution box body (10), and the first dehumidification structure (40) is used for dehumidifying and moistureproof the inner of the distribution box body (10);

a circulation structure (50), the circulation structure (50) being disposed on a side surface of the distribution box body (10);

a second dehumidifying structure (60), the second dehumidifying structure (60) being disposed on the circulating structure (50), the second dehumidifying structure (60) being for dehumidifying and moistureproof inside the distribution box body (10);

the rainproof structure (70), the rainproof structure (70) is arranged on the upper surface of the power distribution box body (10), and the rainproof structure (70) is used for preventing rain.

2. Moisture-proof electrical distribution box according to claim 1, characterized in that said ventilation structure (30) comprises: a rain-proof part and a ventilation part;

the side surface of the power distribution box body (10) is provided with a rectangular opening, the air exchange part is arranged at the rectangular opening, and the rain-proof part is arranged at the rectangular opening.

3. The moisture resistant electrical box of claim 2, wherein said rain shield includes: a pair of rain-proof housings (31);

each rainproof shell (31) is arranged at the corresponding rectangular opening;

the ventilation unit includes: a first intake fan (32) and a first exhaust fan (33);

the first air inlet fan (32) is arranged at one rectangular opening, the first air inlet fan is arranged at the other rectangular opening, and dust screens are arranged on the first air inlet fan (32) and the first exhaust fan (33).

4. Moisture-proof electrical box according to claim 1, characterized in that said first dehumidifying construction (40) comprises: a partition plate (41) and a heating resistance wire (42);

the lower surface is equipped with the rectangle recess in distribution box body (10), heating resistor silk (42) are settled in the rectangle recess, partition panel (41) are settled in rectangle recess department, be equipped with a plurality of ventilation hole on partition panel (41).

5. Moisture-proof electrical box according to claim 1, characterized in that said circulating structure (50) comprises: a circulating part and a transmitting part;

the conveying part is arranged on the side surface of the power distribution box body (10), and the circulating part is arranged at the conveying part.

6. The moisture resistant electrical distribution box of claim 5, wherein said conveyor comprises: a delivery duct (51);

the conveying pipeline (51) is arranged on the side surface of the power distribution box body (10), and the conveying pipeline (51) is communicated with the interior of the power distribution box body (10);

the circulation section includes: a second air intake fan (52) and a second exhaust fan (53);

the second air intake fan (52) is disposed in the conveying duct (51), the second exhaust fan (53) is disposed in the conveying duct (51), and the second air intake fan (52) is located above the second exhaust fan (53).

7. Moisture-proof electrical box according to claim 6, characterized in that said second dehumidifying structure (60) comprises: a bearing part and a drying part;

the bearing part is arranged on the conveying pipeline (51), the bearing part is positioned between the second air inlet fan (52) and the second air outlet fan (53), and the drying part is arranged in the bearing part.

8. The moisture resistant electrical distribution box of claim 7 wherein said carrier includes: a bearing shell (61) and a shutter (62);

the bearing shell (61) is arranged on the conveying pipeline (51), a rectangular opening is formed in the side surface of the bearing shell (61), the stop door (62) is arranged at the rectangular opening, and the bearing shell (61) is communicated with the conveying pipeline (51);

the drying part includes: a drying core (63);

the drying core (63) is disposed within a carrying housing (61).

9. Moisture-proof electrical box according to claim 1, characterized in that said rainproof structure (70) comprises: a rain-proof shed (71);

the rainproof shed (71) is arranged on the upper surface of the power distribution box body (10).

10. Moisture-proof electrical distribution box according to claim 1, characterized in that a controller (80) is provided in said electrical distribution box body (10).

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