CN115999329A - Power load information data collector - Google Patents

Abstract

The invention discloses an electric load information data collector, which relates to the technical field of electric load information detection equipment and comprises a collection unit and a dehumidification unit, wherein the collection unit comprises a data collection module, the dehumidification unit comprises a water collection module and at least one dehumidification fan, the dehumidification fan is arranged above the water collection module, and the dehumidification fan is used for blowing heat generated by the data collection module into the water collection module. The power load information data collector can automatically remove internal moisture, reduce internal and external temperature difference and prevent the moisture from condensing into water on circuit equipment.

Description

Power load information data collector

Technical Field

The invention relates to the technical field of power information detection equipment, in particular to a power load information data collector.

Background

In daily production or life, it is often necessary to monitor the load condition of the electric power in real time to adjust the power transmission state. The power load information data collector is a common power load information data collecting device, and can provide more accurate load prediction information for power distribution network scheduling facing power supply by collecting, analyzing and evaluating power load information of electric equipment and combining mass data of the operation of the electric equipment.

However, the existing power load information data collector is often arranged indoors, and under the scene of a large amount of outdoor electricity consumption, such as a sport meeting, a large-scale exhibition, outdoor performance and the like, when the influence of cold weather or the temperature difference between the morning and evening is large, the surface of the data collector is often frosted, the inside of the data collector generates heat when the electric equipment operates, the temperature is high, the data collector is condensed into water when being easy to cool, the wiring position in the data collector is moist, the data collection accuracy of the data collector is influenced, and the short circuit at the wiring position is more likely to occur. Therefore, a big data power load information data collector capable of timely dehumidifying is needed to solve the above problems.

Disclosure of Invention

The invention aims to provide an electric load information data collector which can automatically remove internal moisture, reduce internal and external temperature difference and prevent the moisture from condensing into water on circuit equipment.

The above object of the present invention can be achieved by the following technical solutions:

the invention provides an electric load information data collector, which comprises a collecting unit and a dehumidifying unit, wherein the collecting unit comprises a data collecting module, the dehumidifying unit comprises a water collecting module and at least one dehumidifying fan, the dehumidifying fan is arranged above the water collecting module, and the dehumidifying fan is used for blowing heat generated by the data collecting module into the water collecting module.

In a preferred embodiment, the collecting unit comprises a first box body, a first accommodating space is formed at the upper part of the first box body, and the data collecting module is arranged in the first accommodating space;

the dehumidifying unit comprises a second box body, a second accommodating space is formed in the second box body, the water collecting module is arranged in the second accommodating space, and the dehumidifying fan is arranged at the upper end of the second box body;

the first box body cover is arranged on the second box body, and the first accommodating space is communicated with the second accommodating space, so that heat generated by the data acquisition module can enter the second accommodating space.

In a preferred embodiment, the water collecting module comprises a water collecting box body and at least one water collecting mechanism, the water collecting box body is attached to the lower portion of the first box body, a third accommodating space is formed in the water collecting box body, and the water collecting mechanism is arranged in the third accommodating space;

the water collecting mechanism comprises:

the condensing sheet is fixedly connected to the inner wall of the water collecting box body, and a movable groove is formed in the middle of the condensing sheet;

the upper edge of the water collecting bucket is attached to the condensing sheet;

the touch piece is fixedly connected with the water collecting bucket, and the touch piece and the water collecting bucket are respectively positioned at two sides of the condensing piece;

the two ends of the first elastic piece are respectively connected with the lower end of the touch piece and the bottom of the water collection box body, and the first elastic piece is used for supporting the touch piece and the water collection bucket;

at least one touch switch arranged on the inner wall of the water collection box body and used for controlling the dehumidification fan;

the water collecting hopper and the touching piece can move up and down along the movable groove, and the touching piece can touch the touching switch so as to enable the dehumidifying fan to start or stop rotating.

In a preferred embodiment, the number of the dehumidifying fans is plural, the dehumidifying fans are arranged at the upper end of the second box body in parallel, the number of the touch switches is the same as the number of the dehumidifying fans, the touch switches are arranged on the inner wall of the water collecting box body in parallel along the up-down direction, and the touch switches respectively control the dehumidifying fans correspondingly.

In a preferred embodiment, the dehumidifying unit includes a heat conducting mechanism, and the heat conducting mechanism is arranged on the water collecting box body;

the heat conduction mechanism includes:

a heat conducting grille provided with a plurality of heat conducting plates which are arranged in parallel;

the heat conduction barrel is formed by downwards extending the heat conduction grille, the heat conduction barrel stretches into the water collection box body, and a plurality of air outlet holes are formed at the lower end of the heat conduction barrel in a circumferential distribution mode;

the heat conduction cover plate is covered at the lower end of the heat conduction cylinder, the periphery of the heat conduction cover plate extends upwards to form a shielding part, and the shielding part is used for shielding a plurality of air outlet holes;

the support frame is fixedly connected in the heat conduction cylinder, and the heat conduction cover plate is movably connected to the support frame through a second elastic piece;

the dehumidification air flow formed by the dehumidification fan can pass through the heat conduction grating and enter the heat conduction barrel, the dehumidification air flow can blow the heat conduction cover plate to move downwards so as to expose at least part of the air outlet holes, and the dehumidification air flow can enter the water collection box body through the air outlet holes.

In a preferred embodiment, the supporting frame has an annular portion and a connecting portion, the connecting portion extends from the annular portion to the radially outer side to the inner wall of the heat conducting tube, so that the supporting frame is fixedly connected in the heat conducting tube, and two ends of the second elastic member are respectively connected to the annular portion and the heat conducting cover plate;

the heat conduction mechanism further comprises a limiting shaft, the limiting shaft is fixedly connected to the heat conduction cover plate and penetrates through the annular portion, a plurality of limiting portions are formed at the upper end of the limiting shaft, and the limiting portions can be clamped at the upper end of the annular portion, so that the limiting shaft limits the downward movement range of the heat conduction cover plate.

In a preferred embodiment, the heat conducting plate is inclined from top to bottom towards the middle of the heat conducting grille, so that the dehumidified air flow enters the heat conducting cylinder.

In a preferred embodiment, ventilation openings are formed on two sides of the second box body;

the dehumidifying unit comprises a ventilation mechanism, wherein the ventilation mechanism is arranged in the second accommodating space and is positioned above the heat conducting mechanism;

the ventilation mechanism includes:

the first rotating shaft is correspondingly arranged at the lower ends of the ventilation openings at two sides of the second box body;

the second rotating shaft is correspondingly arranged at the upper ends of the ventilation openings at two sides of the second box body;

the two ends of the shielding film are respectively connected to the first rotating shaft and the second rotating shaft corresponding to the vent hole, and the shielding film is used for shielding the vent hole;

the driving fan is rotatably arranged on the inner wall of the second box body and is in transmission connection with the first rotating shaft;

the dehumidifying airflow can blow the driving fan and drive the first rotating shaft to rotate, so that the shielding film moves downwards and at least part of the ventilation opening is exposed.

In a preferred embodiment, the ventilation mechanism further comprises a ventilation filter screen, and the ventilation filter screen cover is arranged on the ventilation opening.

In a preferred embodiment, the first box body is provided with a display port and a transmission port, and the first box body is also provided with a transmission cover body, and the transmission cover body is provided with an openable cover on the transmission port;

the data acquisition module comprises:

the sensor is arranged in the first accommodating space and positioned at the transmission port, and can be connected with external equipment through the transmission port;

and the display is connected with the sensor phase signals and is positioned at the display port, and the display displays the information data acquired by the sensor through the display port.

The invention has the characteristics and advantages that:

the electric load information data collector provided by the embodiment of the invention is provided with the water collecting module and the dehumidifying fan, when external weather is cold, internal moisture can be condensed into water, water drops formed by condensation can flow into the water collecting module, when the water storage reaches a certain amount, the dehumidifying fan can start to work, air flow is generated, and heat generated in the working process of the data collecting module is blown into the water collecting module, so that the water storage in the water collecting module is evaporated, and the problem that the accuracy of data collection is influenced due to the fact that the internal moisture of the data collector is too heavy or the liquid is too much is avoided.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings required for the description of the embodiments will be briefly described below, and it is apparent that the drawings in the following description are only some embodiments of the present invention, and other drawings may be obtained according to these drawings without inventive effort for a person skilled in the art.

Fig. 1 is a schematic diagram showing the overall structure of the power load information data collector of the present invention.

Fig. 2 is an exploded view of the overall structure of the power load information data collector according to the present invention.

Fig. 3 is an exploded view of the structure of the water collection box of the power load information data collector of the present invention.

Fig. 4 is a schematic diagram of a water collecting mechanism of the power load information data collector of the present invention.

Fig. 5 is a schematic diagram of a heat conducting mechanism of the power load information data collector of the present invention.

Fig. 6 is a schematic diagram of a ventilation mechanism of the power load information data collector of the present invention.

Fig. 7 is a schematic view of a shielding film of the power load information data collector of the present invention.

Detailed Description

The following description of the embodiments of the present invention will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present invention, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention. It will be understood that when an element is referred to as being "disposed on" another element, it can be directly on the other element or intervening elements may also be present. When an element is referred to as being "connected" to another element, it can be directly connected to the other element or intervening elements may also be present. The terms "mounted," "connected," "coupled," and "connected" are to be construed broadly, and may be, for example, mechanically or electrically connected, may be in communication with each other in two elements, may be directly connected, or may be indirectly connected through an intermediary, and the specific meaning of the terms may be understood by those of ordinary skill in the art in view of the specific circumstances. The terms "vertical," "horizontal," "upper," "lower," "left," "right," and the like are used herein for illustrative purposes only and are not meant to be the only embodiment.

Referring to fig. 1 and 2, an embodiment of the invention provides a power load information data collector, which includes a collecting unit 1 and a dehumidifying unit 2, wherein the collecting unit 1 includes a data collecting module, the dehumidifying unit 2 includes a water collecting module 22 and at least one dehumidifying fan 23, the dehumidifying fan 23 is disposed above the water collecting module 22, and the dehumidifying fan 23 is used for blowing heat generated by the data collecting module into the water collecting module 22.

In order to further explain the power load information data collector of the embodiment of the invention, the specific structure and connection relation and the like are further described below, wherein:

in a preferred embodiment, the acquisition unit 1 comprises a first box 11, a first accommodating space 111 is formed at the upper part of the first box 11, and the data acquisition module is arranged in the first accommodating space 111; the dehumidifying unit 2 includes a second case 21, the second case 21 is formed with a second accommodation space 211, the water collecting module 22 is disposed in the second accommodation space 211, and the dehumidifying fan 23 is disposed at an upper end of the second case 21; the first case 11 is covered on the second case 21, and the first accommodating space 111 is communicated with the second accommodating space 211, so that heat generated by the data acquisition module can enter the second accommodating space 211.

Referring to fig. 3 and 4 together, in a preferred embodiment, the water collecting module 22 includes a water collecting box 221 and at least one water collecting mechanism 3, the water collecting box 221 is adhered to the lower portion of the first box 11, a third accommodating space 222 is formed in the water collecting box 221, and the water collecting mechanism 3 is disposed in the third accommodating space 222; the water collecting mechanism 3 includes: the condensing sheet 31 is fixedly connected to the inner wall of the water collecting box 221, and a movable groove 311 is formed in the middle of the condensing sheet 31; a water collecting bucket 32, the upper edge of which is attached to the condensing sheet 31; the touching piece 33 is fixedly connected with the water collecting bucket 32, and the touching piece 33 and the water collecting bucket 32 are respectively positioned at two sides of the condensing sheet 31; the first elastic member 35, two ends of which are respectively connected to the lower end of the touching member 33 and the bottom of the water collecting box 221, the first elastic member 35 being used for supporting the touching member 33 and the water collecting bucket 32; at least one touch switch 34 disposed on an inner wall of the water collecting box 221, the touch switch 34 being used to control the dehumidifying fan 23; wherein, the water collecting bucket 32 and the touching piece 33 can move up and down along the movable groove 311, and the touching piece 33 can touch the touching switch 34, so that the dehumidifying fan 23 starts or stops rotating. Specifically, the first elastic member 35 may be a spring.

In a preferred embodiment, the number of the dehumidifying fans 23 is plural, the dehumidifying fans 23 are arranged in parallel at the upper end of the second box 21, the number of the touch switches 34 is the same as the number of the dehumidifying fans 23, the touch switches 34 are arranged in parallel on the inner wall of the water collecting box 221 along the up-down direction, and the touch switches 34 respectively control the dehumidifying fans 23 correspondingly.

Referring to fig. 5, in a preferred embodiment, the dehumidifying unit 2 includes a heat conducting mechanism 4, wherein the heat conducting mechanism 4 is disposed on the water collecting box 221; the heat conduction mechanism 4 includes: a heat conductive grille 41 having a plurality of heat conductive plates 411 arranged in parallel; the heat conduction cylinder 42 is formed by extending the heat conduction grating 41 downwards, the heat conduction cylinder 42 extends into the water collection box 221, and a plurality of air outlet holes 421 are formed at the lower end of the heat conduction cylinder 42 along the circumferential direction; the heat conducting cover plate 43 is arranged at the lower end of the heat conducting cylinder 42 in a covering manner, and the periphery of the heat conducting cover plate 43 extends upwards to form a shielding part which is used for shielding the plurality of air outlet holes 421; the support frame 44 is fixedly connected in the heat conduction cylinder 42, and the heat conduction cover plate 43 is movably connected to the support frame 44 through the second elastic piece 45; the dehumidified air flow formed by the dehumidifying fan 23 can pass through the heat conducting grille 41 and enter the heat conducting cylinder 42, and the dehumidified air flow can blow the heat conducting cover plate 43 to move downwards so as to expose at least part of the air outlet holes 421, and the dehumidified air flow can enter the water collecting box 221 through the air outlet holes 421. In particular, the second elastic member 45 may be a spring or a bungee cord, etc.

In a preferred embodiment, the supporting frame 44 has an annular portion and a connecting portion, the connecting portion extends from the annular portion to the radially outer side to the inner wall of the heat conducting tube 42, so that the supporting frame 44 is fixedly connected in the heat conducting tube 42, and two ends of the second elastic member 45 are respectively connected to the annular portion and the heat conducting cover plate 43; the heat conducting mechanism 4 further comprises a limiting shaft 46, the limiting shaft 46 is fixedly connected to the heat conducting cover plate 43 and penetrates through the annular portion, a plurality of limiting portions 461 are formed at the upper end of the limiting shaft 46, and the limiting portions 461 can be clamped at the upper end of the annular portion, so that the limiting shaft 46 limits the downward moving range of the heat conducting cover plate 43.

In a preferred embodiment, the heat conducting plate 411 is inclined from top to bottom toward the middle of the heat conducting grille 41, so that the dehumidified air flow enters the heat conducting cylinder 42.

Referring to fig. 6, in a preferred embodiment, ventilation openings 212 are formed on both sides of the second case 21; the dehumidifying unit 2 comprises a ventilation mechanism 5, wherein the ventilation mechanism 5 is arranged in the second accommodating space 211 and is positioned above the heat conducting mechanism 4; the ventilation mechanism 5 includes: a first rotating shaft 51 provided at the lower end of the ventilation opening 212 at both sides of the second case 21; the second rotating shaft 52 is correspondingly arranged at the upper ends of the ventilation openings 212 at two sides of the second box body 21; the two ends of the shielding film 53 are respectively connected to the first rotating shaft 51 and the second rotating shaft 52 corresponding to the position of one ventilation opening 212, and the shielding film 53 is used for shielding the ventilation opening 212; a driving fan 54 rotatably provided on the inner wall of the second casing 21, the driving fan 54 being in driving connection with the first rotation shaft 51; wherein the dehumidifying air flow can blow the driving fan 54 and rotate the first rotating shaft 51, so that the shielding film 53 moves downwards and at least part of the ventilation opening 212 is exposed. Specifically, the driving fan 54 may be connected to the first pulley 541, and the first shaft 51 may be connected to the second pulley 542, so that the driving fan 54 may drive the first shaft 51 to rotate through the belt 543. Referring to fig. 7, the shielding film 53 may have a shielding section 531 and a ventilation section 532, the ventilation section 532 of the shielding film 53 may be wound around the second rotating shaft 52, and when the first rotating shaft 51 rotates, the shielding section 531 of the shielding film 53 may be wound around the first rotating shaft 51, and the ventilation section 532 of the shielding film 53 may be pulled downward to expose the ventilation opening 212. The second rotating shaft 52 may be designed as an elastic rotating structure, and after the dehumidifying fan 23 stops working, the second rotating shaft 52 may rebound and drive the ventilation section 532 of the shielding film 53 to be rewound on the second rotating shaft 52, and the shielding section 531 of the shielding film 53 may shield the ventilation opening 212 again.

Referring to fig. 6, in a preferred embodiment, the ventilation mechanism 5 further includes a ventilation screen 55, and the ventilation screen 55 covers the ventilation opening 212.

Referring to fig. 1, in a preferred embodiment, a display port 112 and a transmission port are formed on the first box 11, the first box 11 further has a transmission cover 113, and a cover capable of being opened and closed of the transmission cover 113 is disposed on the transmission port; the data acquisition module comprises: the sensor is arranged in the first accommodating space 111 and positioned at the transmission port, and can be connected with external equipment through the transmission port; and the display is connected with the phase of the sensor and positioned at the display port 112, and displays information data acquired by the sensor through the display port 112. Specifically, the transmission cover 113 is rotatably disposed at the transmission port through a rotation shaft, so that the transmission port can be movably covered.

Based on the above structural description, the power load information data collector of the embodiment of the invention has the following beneficial effects:

1. the electric load information data collector provided by the embodiment of the invention is provided with the water collecting module 22 and the dehumidifying fan 23, when the external weather is colder, the moisture in the water collecting module 22 can be condensed into water, the condensed water drops can flow into the water collecting module 22, when the stored water reaches a certain amount, the dehumidifying fan 23 can start to work, air flow is generated, and heat generated in the working process of the data collecting module is blown into the water collecting module 22, so that the stored water in the water collecting module 22 is evaporated, and the phenomenon that the accuracy of data collection is influenced due to the fact that the moisture in the data collector is too heavy or the liquid is too much is prevented.

2. The water collecting module 22 of the embodiment of the invention comprises the water collecting box body 221 and the water collecting mechanism 3, wherein the condensing sheet 31 of the water collecting mechanism 3 is connected with the water collecting box body 221, and the water collecting box body 221 is attached to the lower part of the first box body 11, so that the condensing sheet 31 is easier to conduct heat with the outside, the temperature of the condensing sheet 31 is close to the outside and is obviously lower than the temperature in the data collector, therefore, moisture in the data collector can be condensed into water on the condensing sheet 31 at first, and can not be condensed into water on a circuit of the data collecting module, and the problem that the circuit is short-circuited when meeting water is effectively prevented.

3. The water droplets condensed on the condensation sheet 31 flow into the sump 32 through the upper edge of the sump 32. As the water stored in the water collecting bucket 32 increases, the weight is increased, the water collecting bucket 32 drives the touching member 33 to move downwards together, and when the touching member 33 touches the touching switch 34, the dehumidifying fan 23 can be triggered to work, so that the hot air above is blown into the water collecting box 221. Further, when the water in the water collection bucket 32 is excessive, the touch member 33 moves down further and triggers more touch switches 34, so that more dehumidification fans 23 work, the hot air volume is increased, and the water evaporation speed is increased.

4. The water collecting module 22 of the embodiment of the invention is also provided with the heat conducting mechanism 4, and the heat conducting grille 41 of the heat conducting mechanism 4 can guide hot air into the water collecting box body 221, so that the dissipation waste of the hot air is reduced. The heat conduction tube 42 of the heat conduction mechanism 4 extends into the water collection box 221, waste of hot air is further reduced, and a plurality of air outlet holes 421 are formed in the lower side of the heat conduction tube 42, so that the hot air uniformly dispersedly flows into the water collection box 221. The heat conduction cover plate 43 capable of being elastically opened and closed is arranged below the heat conduction cylinder 42, and is blown open by the dehumidification airflow to expose the air outlet 421 when the dehumidification fan 23 works, and the heat conduction cover plate 43 can cover and seal the air outlet 421 when the dehumidification fan 23 stops working so as to prevent moisture gradually generated in the water collection box 221 from upwards channeling into the data collection module.

5. The dehumidifying unit 2 of the embodiment of the present invention further includes a ventilation mechanism 5 disposed above the heat conducting mechanism 4, where the shielding film 53 of the ventilation mechanism 5 can generally shield the ventilation openings 212 on two sides of the second box 21, so as to reduce invasion of dust or small insects into the second box 21, and when the dehumidifying fan 23 works, the dehumidifying air flow can blow the driving fan 54 and drive the first rotating shaft 51 to rotate, so that the shielding film 53 moves downward to expose the ventilation openings 212, and the external cold air flow enters the second box 21 under the action of air pressure, so that the temperature in the second box 21 is reduced, the temperature difference between the inside and the outside is reduced, thereby reducing the humidity and preventing the humidity in the data collector from being too large.

The foregoing is only a few embodiments of the present invention and those skilled in the art, having the benefit of this disclosure, may make numerous changes and modifications to the embodiments of the invention described herein without departing from the spirit and scope of the invention. Unless defined otherwise, all technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this application belongs. The terminology used herein in the description of the application is for the purpose of describing particular embodiments only and is not intended to be limiting of the application. The term "and/or" as used herein includes any and all combinations of one or more of the associated listed items.

Claims (10)

1. The utility model provides a power load information data collector, its characterized in that includes collection unit and dehumidification unit, the collection unit includes data acquisition module, the dehumidification unit includes collection water module and at least one dehumidification fan, the dehumidification fan sets up collection water module's top, the dehumidification fan is used for with the heat that data acquisition module produced is blown into in the collection water module.

2. The electrical load information data collector of claim 1, wherein the collection unit comprises a first box body, a first accommodation space is formed at the upper part of the first box body, and the data collection module is arranged in the first accommodation space;

the dehumidifying unit comprises a second box body, a second accommodating space is formed in the second box body, the water collecting module is arranged in the second accommodating space, and the dehumidifying fan is arranged at the upper end of the second box body;

the first box body cover is arranged on the second box body, and the first accommodating space is communicated with the second accommodating space, so that heat generated by the data acquisition module can enter the second accommodating space.

3. The electrical load information data collector of claim 2, wherein the water collecting module comprises a water collecting box body and at least one water collecting mechanism, the water collecting box body is attached to the lower part of the first box body, a third accommodating space is formed in the water collecting box body, and the water collecting mechanism is arranged in the third accommodating space;

the water collecting mechanism comprises:

the condensing sheet is fixedly connected to the inner wall of the water collecting box body, and a movable groove is formed in the middle of the condensing sheet;

the upper edge of the water collecting bucket is attached to the condensing sheet;

the touch piece is fixedly connected with the water collecting bucket, and the touch piece and the water collecting bucket are respectively positioned at two sides of the condensing piece;

the two ends of the first elastic piece are respectively connected with the lower end of the touch piece and the bottom of the water collection box body, and the first elastic piece is used for supporting the touch piece and the water collection bucket;

at least one touch switch arranged on the inner wall of the water collection box body and used for controlling the dehumidification fan;

the water collecting hopper and the touching piece can move up and down along the movable groove, and the touching piece can touch the touching switch so as to enable the dehumidifying fan to start or stop rotating.

4. The electrical load information data collector of claim 3, wherein the number of the dehumidifying fans is plural, the dehumidifying fans are arranged at the upper end of the second box body in parallel, the number of the touch switches is the same as the number of the dehumidifying fans, the touch switches are arranged on the inner wall of the water collecting box body in parallel along the up-down direction, and the touch switches respectively control the dehumidifying fans correspondingly.

5. The electrical load information data collector of claim 3 wherein the dehumidification unit comprises a thermally conductive mechanism disposed on the water collection box;

the heat conduction mechanism includes:

a heat conducting grille provided with a plurality of heat conducting plates which are arranged in parallel;

the heat conduction barrel is formed by downwards extending the heat conduction grille, the heat conduction barrel stretches into the water collection box body, and a plurality of air outlet holes are formed at the lower end of the heat conduction barrel in a circumferential distribution mode;

the heat conduction cover plate is covered at the lower end of the heat conduction cylinder, the periphery of the heat conduction cover plate extends upwards to form a shielding part, and the shielding part is used for shielding a plurality of air outlet holes;

the support frame is fixedly connected in the heat conduction cylinder, and the heat conduction cover plate is movably connected to the support frame through a second elastic piece;

the dehumidification air flow formed by the dehumidification fan can pass through the heat conduction grating and enter the heat conduction barrel, the dehumidification air flow can blow the heat conduction cover plate to move downwards so as to expose at least part of the air outlet holes, and the dehumidification air flow can enter the water collection box body through the air outlet holes.

6. The electrical load information data collector of claim 5, wherein the support frame has an annular portion and a connecting portion, the connecting portion extends radially outward from the annular portion to an inner wall of the heat conductive cylinder so that the support frame is fixedly connected in the heat conductive cylinder, and two ends of the second elastic member are respectively connected to the annular portion and the heat conductive cover plate;

the heat conduction mechanism further comprises a limiting shaft, the limiting shaft is fixedly connected to the heat conduction cover plate and penetrates through the annular portion, a plurality of limiting portions are formed at the upper end of the limiting shaft, and the limiting portions can be clamped at the upper end of the annular portion, so that the limiting shaft limits the downward movement range of the heat conduction cover plate.

7. The electrical load information data collector of claim 5, wherein the heat conducting plate is inclined from top to bottom toward the middle of the heat conducting grille to enable the dehumidified airflow to enter the heat conducting cylinder.

8. The electrical load information data collector of claim 5 wherein vents are formed on both sides of the second housing;

the dehumidifying unit comprises a ventilation mechanism, wherein the ventilation mechanism is arranged in the second accommodating space and is positioned above the heat conducting mechanism;

the ventilation mechanism includes:

the first rotating shaft is correspondingly arranged at the lower ends of the ventilation openings at two sides of the second box body;

the second rotating shaft is correspondingly arranged at the upper ends of the ventilation openings at two sides of the second box body;

the two ends of the shielding film are respectively connected to the first rotating shaft and the second rotating shaft corresponding to the vent hole, and the shielding film is used for shielding the vent hole;

the driving fan is rotatably arranged on the inner wall of the second box body and is in transmission connection with the first rotating shaft;

the dehumidifying airflow can blow the driving fan and drive the first rotating shaft to rotate, so that the shielding film moves downwards and at least part of the ventilation opening is exposed.

9. The electrical load information data collector of claim 8, wherein the ventilation mechanism further comprises a ventilation screen, the ventilation screen cover being disposed over the vent.

10. The electrical load information data collector of claim 2, wherein the first box body is formed with a display port and a transmission port, the first box body is further provided with a transmission cover body, and the transmission cover body is provided with a cover capable of being opened and closed on the transmission port;

the data acquisition module comprises:

the sensor is arranged in the first accommodating space and positioned at the transmission port, and can be connected with external equipment through the transmission port;

and the display is connected with the sensor phase signals and is positioned at the display port, and the display displays the information data acquired by the sensor through the display port.

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