CN114397932B - Distribution board internal environment control device based on temperature and humidity relevance - Google Patents

Abstract

The invention provides a distribution board internal environment control device based on temperature and humidity relevance, which belongs to the technical field of distribution board internal environment control devices and comprises a side wall, wherein a zooming moisture absorption layer is arranged inside the side wall, a zooming driving mechanism is connected between the zooming moisture absorption layer and the side wall, a humidification conduction mechanism is connected on the zooming moisture absorption layer in a switching mode, an isolation cavity component corresponding to the zooming moisture absorption layer is arranged inside the side wall, and a three-way monitoring mechanism is arranged on the left side of the side wall. This distribution board internal environment controlling means based on temperature and humidity relevance, through shrink moisture absorption layer, zoom actuating mechanism, humidification pass to the combined action of mechanism, isolation chamber subassembly and three-dimensional monitoring mechanism, not only can carry out stable control to distribution board internal environment, simultaneously effectual distribution board overall structure's complexity that has reduced, make the structure of distribution board simpler, and then the manufacturing cost and the use cost of the distribution board of corresponding reduction.

Description

Distribution board internal environment control device based on temperature and humidity relevance

Technical Field

The invention relates to the technical field of distribution board internal environment control devices, in particular to a distribution board internal environment control device based on temperature and humidity relevance.

Background

The distribution board is also called a distribution board, and is mainly used for installing circuit board electronic and electrical components and the like required by various power distributions, because the circuit board components and the like have certain requirements on the temperature and the humidity of the environment, for example, the aging of the circuit board components and the like can be accelerated under the high-temperature environment, the components and the devices are easily damaged, and the high-humidity environment easily causes accidents such as creepage, short circuit and the like, so the control and monitoring of the internal environment of the distribution board are also very important.

The existing control devices are generally controlled in a one-to-one manner, for example, for a high-temperature environment, a ventilation and heat dissipation device is mainly used for cooling the high-temperature environment, and for a high-humidity environment, dehumidification is mainly performed by a corresponding dehumidification method, so that the overall structure of the distribution board is high in complexity and not simple enough, the production cost and the use cost of the distribution board are correspondingly increased, the energy consumption is high, and the energy conservation and the environmental protection are not enough.

Disclosure of Invention

In order to solve the above technical problems, the present invention provides a distribution board internal environment control device based on the temperature and humidity correlation, which is achieved by the following specific technical means: the device comprises a side wall, a zooming moisture absorption layer, a zooming driving mechanism, a driving shaft, an upper connecting plate, a lower fixing plate, a humidifying conduction mechanism, a rotating on-off rod, a contact conduction piece, an intermediate connection conduction piece, an isolation cavity component, an isolation accommodating cavity, an isolation sealing plate, an automatic reset connecting belt, a bearing driving block, a wet liquid storage chamber, a radiation hole, a three-way monitoring mechanism, a humidity monitoring starting component, a hollow cavity, a moisture absorption expansion block, a sliding rod piece I, a contact starting switch I, a temperature monitoring starting component, a heat conduction cavity, a thermal expansion and cold contraction piece, a sliding rod piece II, a contact starting switch II, an intermediate abnormal selection component, a rotating connecting rod and a contact selection ball.

The position and connection relation of the structures are as follows:

the inside of lateral wall is provided with the moisture absorption layer that zooms, zooms to be connected with between moisture absorption layer and the lateral wall and zooms actuating mechanism, and the break-make is connected with humidification conduction mechanism on the moisture absorption layer that zooms, and the inside isolation chamber subassembly that is provided with and zooms the corresponding moisture absorption layer of lateral wall, the last one-way intercommunication of isolation chamber subassembly have with the corresponding wet liquor storage chamber of humidification conduction mechanism, evenly seted up the radiation hole on the left side of lateral wall, be provided with three-dimensional monitoring mechanism on the left side of lateral wall.

The first preferred scheme is as follows: as the improvement of basic scheme, the moisture absorption layer that zooms is flexible cotton layer, and drive mechanism that zooms includes drive shaft, upper junction plate and bottom plate, and the drive shaft pivot is connected in the lateral wall, and the top side of the moisture absorption layer that zooms passes through upper junction plate sliding connection on the drive shaft, and the bottom side of the moisture absorption layer that zooms passes through bottom plate fixed connection in keeping apart the chamber subassembly, through zooming the moisture absorption layer according to the actual conditions of distributor internal environment to carry out corresponding dehumidification or cooling treatment to it, and then realize control and regulation to distributor internal environment.

The preferred scheme II comprises the following steps: as the improvement of preferred scheme one, keep apart the chamber subassembly and include keep apart and accomodate the chamber, keep apart the sealing plate, automatic re-setting connecting band and accept the drive block, keep apart and accomodate the chamber and set up the bottom position in the lateral wall, keep apart the sealing plate and rotate and connect in the inside and keep apart the corresponding position in accomodating the chamber of lateral wall, accept the drive block and pass through automatic re-setting connecting band swing joint in the lateral wall with the corresponding position of upper junction plate, and the automatic re-setting connecting band is connected for the meshing with the isolation sealing plate, can provide an isolation parking space relative with the distribution board for the moisture absorption layer that zooms.

The preferred scheme is three: as the improvement of basic scheme, humidification conduction mechanism includes rotation on-off pole, contact conduction spare and intermediate junction conduction spare, and intermediate junction conduction spare and contact conduction spare all rotate through rotating on-off pole and connect in the wet liquor apotheca with the corresponding position of scaling moisture absorption layer, and intermediate junction conduction spare is connected between the liquid in contact conduction spare and wet liquor apotheca, provides the humidity of cooling for scaling the moisture absorption layer as required.

The preferable scheme is four: as an improvement of the third preferred scheme, the contact conduction piece is cylindrical absorbent cotton, and the middle connection conduction piece is elastic strip-shaped absorbent cotton.

The preferable scheme is five: as an improvement of the basic scheme, the three-way monitoring mechanism comprises a humidity monitoring starting component, a temperature monitoring starting component and a middle abnormity selection component, wherein the middle abnormity selection component is connected between the humidity monitoring starting component and the temperature monitoring starting component, and the temperature monitoring starting component of the humidity monitoring starting component corresponds to the zooming driving mechanism and the humidifying conduction mechanism respectively.

The preferable scheme is six: as an improvement of the fifth preferred scheme, the humidity monitoring starting assembly comprises a hollow cavity, a moisture absorption expansion block, a first sliding rod piece and a first contact starting switch, the first sliding rod piece is inserted into the hollow cavity in a sliding mode through the moisture absorption expansion block, and the first contact starting switch is arranged on the inner side of the bottom of the hollow cavity and corresponds to the first sliding rod piece.

The preferable scheme is seven: as the improvement of the sixth preferred scheme, the temperature monitoring starting assembly comprises a heat conduction cavity, an expansion and contraction part, a second sliding rod part and a second contact starting switch, the second sliding rod part is inserted in the heat conduction cavity in a sliding mode through the expansion and contraction part, and the second contact starting switch is arranged on the inner side of the top of the heat conduction cavity and corresponds to the second sliding rod part.

The preferred scheme eight: as an improvement of the seventh preferred scheme, the middle abnormity selection assembly comprises a rotation connecting rod and a contact selection ball, the rotation connecting rod is in an inclined parallel shape and is connected to the side wall in a fixed-point rotating manner, the opposite ends of the rotation connecting rod are respectively connected to the bottom ends of the first sliding rod piece and the second sliding rod piece in a rotating manner, and the contact selection ball is respectively connected to one end of the rotation connecting rod corresponding to the contact selection ball.

The invention has the following beneficial effects:

1. this distribution board internal environment controlling means based on temperature and humidity associativity, through the lateral wall, shrink moisture absorption layer, zoom actuating mechanism, the mechanism is passed to in the humidification, keep apart the chamber subassembly, the combined action of radiation hole and three-dimensional monitoring mechanism, monitor distribution board internal environment from this three direction of high temperature and high humidity and high temperature and high humidity coexistence, and timely make corresponding reduction or fall wet processing, not only can carry out stable control to distribution board internal environment, simultaneously effectual distribution board overall structure's complexity that has reduced, make the structure of distribution board simpler, and then the manufacturing cost and the use cost of the distribution board of corresponding reduction, the consumption of the energy has been reduced relatively to the same reason, more energy-concerving and environment-protective.

2. This distribution board internal environment controlling means based on temperature and humidity relevance, through shrink hygroscopic layer, the combined action of drive mechanism and isolation chamber subassembly zooms in, the isolation chamber that utilizes automatic break-make is kept apart the processing to its environment with distribution board inside according to the needs that zooms the hygroscopic layer, can effectively avoid zooming the hygroscopic layer and leading to the fact bad influence to the internal environment of distribution board under the normal condition, corresponding also can effectively avoid the reaction of this influence to reduce under the circumstances such as high temperature or high humidity, it reduces or the effect of dehumidification to it to zoom the hygroscopic layer, and then the stability of distribution board internal environment has been improved.

Drawings

Fig. 1 is a schematic view of a connection structure of a scaled moisture absorption layer in an expanded state according to the present invention.

Fig. 2 is a schematic view of the overall front connection structure in the initial state of the present invention.

FIG. 3 is an enlarged view of A of FIG. 1 according to the present invention.

FIG. 4 is an enlarged view of B of FIG. 2 according to the present invention.

Fig. 5 is a schematic view of the connection structure of the three monitoring mechanisms of the present invention.

In the figure: 1. a side wall; 2. scaling the moisture absorption layer; 3. a zoom drive mechanism; 31. a drive shaft; 32. an upper connecting plate; 33. a lower fixing plate; 4. a humidifying conductive mechanism; 41. rotating the on-off rod; 42. a contact conductor; 43. the middle is connected with a conduction piece; 5. an isolated cavity assembly; 51. an isolated receiving cavity; 52. isolating the sealing plate; 53. automatically resetting the connecting belt; 54. carrying the driving block; 6. a wet liquid storage chamber; 7. a radiation aperture; 8. a three-way monitoring mechanism; 81. a humidity monitoring starting component; 811. hollowing out the cavity; 812. a moisture-absorbing expansion block; 813. a first slide bar member; 814. a first contact start switch; 82. a temperature monitoring start component; 821. a heat conducting cavity; 822. a thermal expansion and contraction member; 823. a slide bar member II; 824. a second contact starting switch; 83. an intermediate exception selection component; 831. rotating the connecting rod; 832. the selection ball is contacted.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, rather than all embodiments, and it should be noted that, in the case of no conflict, the embodiments and features in the embodiments of the present invention may be combined with each other, for convenience of description, the words "up", "down", "left" and "right" appearing hereinafter merely indicate that the words are consistent with the upper, lower, left and right directions of the drawings themselves, and do not limit the structure.

Please refer to fig. 1-5:

the switchboard internal environment control device based on temperature and humidity relevance comprises a side wall 1, a scaling moisture absorption layer 2, a scaling driving mechanism 3, a driving shaft 31, an upper connecting plate 32, a lower fixing plate 33, a humidification conducting mechanism 4, a rotary on-off rod 41, a contact conducting piece 42, an intermediate connecting conducting piece 43, an isolation cavity component 5, an isolation accommodating cavity 51, an isolation sealing plate 52, an automatic reset connecting belt 53, a bearing driving block 54, a wet liquid storage chamber 6, a radiation hole 7, a three-way monitoring mechanism 8, a humidity monitoring starting component 81, a hollow-out cavity 811, a moisture absorption expansion block 812, a first sliding rod piece 813, a first contact starting switch 814, a temperature monitoring starting component 82, a heat conducting cavity 821, a thermal expansion cold-contraction piece 822, a second sliding rod piece 823, a second contact starting switch 824, an intermediate abnormity selecting component 83, a rotary connecting rod 831 and a contact selecting ball 832.

The positions and the connection relations of the structures are as follows:

the scaling moisture absorption layer 2 is arranged in the side wall 1, the scaling driving mechanism 3 is connected between the scaling moisture absorption layer 2 and the side wall 1, the humidification conducting mechanism 4 is connected on the scaling moisture absorption layer 2 in a switching mode, the isolation cavity component 5 corresponding to the scaling moisture absorption layer 2 is arranged in the side wall 1, the scaling moisture absorption layer 2 is a flexible cotton layer, the scaling driving mechanism 3 comprises a driving shaft 31, an upper connecting plate 32 and a lower fixing plate 33, the driving shaft 31 is connected in the side wall 1 in a rotating mode, the top side of the scaling moisture absorption layer 2 is connected to the driving shaft 31 in a sliding mode through the upper connecting plate 32, the bottom side of the scaling moisture absorption layer 2 is fixedly connected in the isolation cavity component 5 through the lower fixing plate 33, the scaling moisture absorption layer 2 is used for carrying out corresponding dehumidification or cooling treatment according to the actual condition of the internal environment of the switchboard, and further control and adjustment of the internal environment of the switchboard are achieved, the wet liquid storage chamber 6 corresponding to the humidification conduction mechanism 4 is communicated with the isolation cavity assembly 5 in one direction, the isolation cavity assembly 5 comprises an isolation storage cavity 51, an isolation sealing plate 52, an automatic reset connecting belt 53 and a bearing driving block 54, the isolation storage cavity 51 is arranged at the bottom position in the side wall 1, the isolation sealing plate 52 is rotatably connected to the position, corresponding to the isolation storage cavity 51, inside the side wall 1, of the isolation storage cavity, the bearing driving block 54 is movably connected to the position, corresponding to the upper connecting plate 32, in the side wall 1 through the automatic reset connecting belt 53, the automatic reset connecting belt 53 is connected with the isolation sealing plate 52 in a meshing mode, an isolation storage space corresponding to the distribution board can be provided for the moisture absorption layer 2, radiation holes 7 are uniformly formed in the left side of the side wall 1, and a three-way monitoring mechanism 8 is arranged on the left side of the side wall 1.

Wherein, humidification conduction mechanism 4 is including rotating on-off rod 41, contact conduction piece 42 and intermediate junction conduction piece 43, intermediate junction conduction piece 43 and contact conduction piece 42 all rotate through rotating on-off rod 41 and connect in the wet liquor storage chamber 6 with the corresponding position of scaling moisture absorption layer 2, intermediate junction conduction piece 43 is connected between the liquid in contact conduction piece 42 and the wet liquor storage chamber 6, contact conduction piece 42 is the cylindricality cotton that absorbs moisture, intermediate junction conduction piece 43 is the elasticity bar cotton that absorbs moisture, provide the humidity of cooling for scaling moisture absorption layer 2 as required.

Wherein, the three-way monitoring mechanism 8 comprises a humidity monitoring starting component 81, a temperature monitoring starting component 82 and a middle abnormity selection component 83, the middle abnormity selection component 83 is connected between the humidity monitoring starting component 81 and the temperature monitoring starting component 82, and the humidity monitoring starting component 81 and the temperature monitoring starting component 82 correspond to the zooming driving mechanism 3 and the humidifying conduction mechanism 4 respectively, wherein, the humidity monitoring starting component 81 comprises a hollow-out cavity 811, a moisture absorption expansion block 812, a slide bar piece 813 and a contact starting switch 814, the slide bar piece 813 is inserted in the hollow-out cavity 811 by the moisture absorption expansion block 812 in a sliding way, the contact starting switch 814 is arranged at the position corresponding to the slide bar piece 813 on the inner side of the bottom of the hollow-out cavity 811, the temperature monitoring starting assembly 82 comprises a heat conduction cavity 821, an expansion and contraction part 822, two sliding rod parts 823 and two contact starting switches 824, the two sliding rod parts 823 are inserted in the heat conduction cavity 821 in a sliding mode through the expansion and contraction part 822, the two contact starting switches 824 are arranged on the inner side of the top of the heat conduction cavity 821 and correspond to the two sliding rod parts 823, the middle abnormal selection assembly 83 comprises a rotating connecting rod 831 and a contact selection ball 832, the rotating connecting rod 831 is obliquely and parallelly connected on the side wall 1 in a fixed-point rotating mode, one end, opposite to the rotating connecting rod 831, of the rotating connecting rod 831 is respectively connected to the bottom ends of the first sliding rod part 813 and the second sliding rod part 823 in a rotating mode, the contact selection ball 832 is respectively connected to one end, corresponding to the rotating connecting rod 831, the internal environment of the switchboard can be monitored, and corresponding processing measures can be selected according to monitoring results.

The working principle is as follows: the switchboard internal environment control device based on temperature and humidity relevance, the side wall 1 can be one side or a plurality of sides forming the switchboard, and the left side of the side wall 1 is equal to the inner side of the corresponding power distribution surface, in an initial state, as shown in figure 2, the scaling moisture absorption layer 2 is arranged in the isolation receiving cavity 51 in a shrinkage shape, and the folding moisture absorption layer 2 is in a squeezing dry shape at the moment, when the humidity in the switchboard is too high, the moisture absorption expansion block 812 absorbs the moisture expansion to drive the sliding rod part 813 to slide downwards to be in contact with the contact starting switch 814 to start the driving shaft 31, the driving shaft 31 rotates to drive the scaling moisture absorption layer 2 to move upwards and expand through the upper connecting plate 32, as shown in figure 1, a dry moisture absorption surface formed by expanding the scaling moisture absorption layer 2 adsorbs the moisture in the internal environment of the switchboard through the radiation hole 7, and further can effectively perform moisture absorption treatment on the internal environment of the switchboard, when the temperature in the switchboard is too high, the expansion and contraction part 822 expands due to heat to drive the sliding rod part II 823 to move upwards to contact with the contact start switch II 824, the drive shaft 31 is started to rotate and simultaneously drives the rotation on-off rod 41, the drive shaft 31 drives the scaling moisture absorption layer 2 to move upwards through the upper connecting plate 32 to dry the moisture absorption surface, the contact conduction part 42 on the drive shaft is driven to contact with the scaling moisture absorption layer 2 through the rotation of the rotation on-off rod 41, the liquid in the wet liquid storage chamber 6 is transmitted to the scaling moisture absorption layer through the contact conduction part 42 through the middle connection conduction part 43 to form a wet temperature reduction surface, the environment in the switchboard can be subjected to temperature reduction treatment by using the wet temperature reduction surface, and according to the relevance between the temperature and the humidity, under the common condition, the humidity in a certain space is relatively low when the temperature is higher, when the humidity is higher, the corresponding stability is generally relatively lower, and of course, special conditions exist, for example, under the condition of coexistence of high temperature and high humidity, at this time, the first sliding rod part 813 can slide downwards, the second sliding rod part 823 can slide downwards simultaneously, the first sliding rod part 813 can slide downwards and drive the contact selection ball 832 to move upwards through the rotating connecting rod 831 on the first sliding rod part, the second sliding rod part 823 can drive the corresponding contact selection ball 832 to move downwards through the rotating connecting rod 831 on the second sliding rod part, the contact selection ball 832 moving downwards meets and contacts with the contact selection ball 832 moving upwards, at this time, according to actual requirements on site, the internal environment of the switchboard can be cooled or dehumidified alternatively, for example, dehumidification can be selected firstly, creepage or short circuit can be caused by moisture, and therefore, high-risk accidents such as electric contact can be easily caused, in sum up, through monitoring the internal environment of the switchboard from three directions of high temperature, high humidity and high temperature, and high humidity, and accordingly, the corresponding reduction or dehumidification treatment can be performed timely, not only the stable control can be performed on the internal environment of the switchboard, and the energy consumption of the switchboard can be reduced, and the corresponding energy consumption of the switchboard can be reduced, and the use cost can be more easily.

In addition, through the relative isolation cavity formed by the isolation accommodating cavity 51 and the isolation sealing plate 52, the zooming motion of the zooming moisture absorption layer 2 is utilized to enable the upper connecting plate 32 to move, correspondingly, the isolation sealing plate 52 is driven by the automatic reset connecting belt 53 to carry out on-off control on the isolation accommodating cavity 51, for example, when the zooming moisture absorption layer 2 shrinks, the upper connecting plate 32 moves downwards, in the moving process, when the driving block 54 is moved to be received, the automatic reset connecting belt 53 is driven by the receiving driving block 54 to move downwards, the automatic reset connecting belt 53 moves downwards to drive the isolation sealing plate 52 to move towards the accommodating port of the isolation accommodating cavity 51 and cover the accommodating port to form a corresponding isolation cavity, otherwise, the automatic on-off isolation cavity is utilized to carry out isolation processing on the zooming moisture absorption layer 2 and the internal environment of the distribution board according to the needs of the zooming distribution board, the adverse effect of the zooming moisture absorption layer 2 on the internal environment of the distribution board in a normal state can be effectively avoided, correspondingly, the adverse effect of the zooming moisture absorption layer 2 on the high temperature or high humidity can be effectively avoided, and the like, and the stability of the internal environment of the distribution board can be correspondingly improved.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that 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 (5)

1. An internal environment control device of a distribution panel based on the correlation between temperature and humidity, comprising a side wall (1), characterized in that: the retractable moisture absorption layer (2) is arranged inside the side wall (1), a retractable driving mechanism (3) is connected between the retractable moisture absorption layer (2) and the side wall (1), the retractable moisture absorption layer (2) is connected with a humidification conducting mechanism (4) in a switching mode, an isolation cavity component (5) corresponding to the retractable moisture absorption layer (2) is arranged inside the side wall (1), a wet liquid storage chamber (6) corresponding to the humidification conducting mechanism (4) is communicated with the isolation cavity component (5) in a one-way mode, radiation holes (7) are uniformly formed in the left side of the side wall (1), and a three-way monitoring mechanism (8) is arranged on the left side of the side wall (1);

the three-way monitoring mechanism (8) comprises a humidity monitoring starting component (81), a temperature monitoring starting component (82) and a middle abnormity selection component (83), the middle abnormity selection component (83) is connected between the humidity monitoring starting component (81) and the temperature monitoring starting component (82), and the humidity monitoring starting component (81) and the temperature monitoring starting component (82) respectively correspond to the zooming driving mechanism (3) and the humidifying conduction mechanism (4);

the humidity monitoring starting assembly (81) comprises a hollow-out cavity (811), a moisture absorption expansion block (812), a first sliding rod piece (813) and a first contact starting switch (814), wherein the first sliding rod piece (813) is inserted into the hollow-out cavity (811) in a sliding mode through the moisture absorption expansion block (812), and the first contact starting switch (814) is arranged on the inner side of the bottom of the hollow-out cavity (811) and corresponds to the first sliding rod piece (813);

the temperature monitoring starting assembly (82) comprises a heat conduction cavity (821), a thermal expansion and contraction piece (822), a second sliding rod piece (823) and a second contact starting switch (824), the second sliding rod piece (823) is inserted in the heat conduction cavity (821) in a sliding mode through the thermal expansion and contraction piece (822), and the second contact starting switch (824) is arranged on the inner side of the top of the heat conduction cavity (821) and corresponds to the second sliding rod piece (823);

the middle abnormity selection assembly (83) comprises a rotation connecting rod (831) and a contact selection ball (832), the rotation connecting rod (831) is obliquely parallel and is connected to the side wall (1) in a fixed-point rotating mode, one end, back to the back, of the rotation connecting rod (831) is connected to the bottom ends of the first sliding rod piece (813) and the second sliding rod piece (823) in a rotating mode respectively, and the contact selection ball (832) is connected to one end, corresponding to the rotation connecting rod (831), of the rotation connecting rod (831) respectively.

2. The distribution board internal environment control device based on the temperature and humidity correlation according to claim 1, wherein: the scaling moisture absorption layer (2) is a flexible cotton layer, the scaling driving mechanism (3) comprises a driving shaft (31), an upper connecting plate (32) and a lower fixing plate (33), the rotating shaft of the driving shaft (31) is connected into the side wall (1), the top side of the scaling moisture absorption layer (2) is connected onto the driving shaft (31) through the upper connecting plate (32) in a sliding mode, and the bottom side of the scaling moisture absorption layer (2) is fixedly connected into the isolation cavity assembly (5) through the lower fixing plate (33).

3. The distribution board internal environment control apparatus based on the temperature and humidity correlation according to claim 2, wherein: keep apart chamber subassembly (5) and accomodate chamber (51) including keeping apart, keep apart sealing plate (52), automatic re-setting connecting band (53) and accept drive block (54), keep apart and accomodate chamber (51) and set up bottom position in lateral wall (1), keep apart sealing plate (52) and rotate to connect and accomodate the corresponding position in chamber (51) at lateral wall (1) inside and keep apart, accept drive block (54) through automatic re-setting connecting band (53) swing joint in lateral wall (1) with upper junction plate (32) corresponding position, and automatic re-setting connecting band (53) seal plate (52) with keeping apart and be connected for the meshing.

4. The distribution board internal environment control device based on the temperature and humidity correlation according to claim 1, wherein: the humidifying and conducting mechanism (4) comprises a rotary on-off rod (41), a contact conducting piece (42) and an intermediate connection conducting piece (43), the intermediate connection conducting piece (43) and the contact conducting piece (42) are rotatably connected to the position, corresponding to the scaling moisture absorption layer (2), in the wet liquid storage chamber (6) through the rotary on-off rod (41), and the intermediate connection conducting piece (43) is connected between the contact conducting piece (42) and liquid in the wet liquid storage chamber (6).

5. The distribution board internal environment control device based on the temperature and humidity correlation according to claim 4, wherein: the contact conduction piece (42) is cylindrical absorbent cotton, and the middle connection conduction piece (43) is elastic strip-shaped absorbent cotton.

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