CN112577130A

CN112577130A - A stable form dehumidification equipment for computer lab

Info

Publication number: CN112577130A
Application number: CN202011445682.9A
Authority: CN
Inventors: 时枫娇
Original assignee: Nanjing Sidajie Information Technology Co ltd
Current assignee: Nanjing Sidajie Information Technology Co ltd
Priority date: 2020-12-09
Filing date: 2020-12-09
Publication date: 2021-03-30

Abstract

The invention relates to stable dehumidification equipment for a machine room, which comprises a shell, an air pipe and an air pump, wherein the shell is in a cuboid shape, the top of the shell is provided with an air inlet, the bottom of the shell is provided with an air outlet, the air pipe vertically penetrates through the air inlet, the air pipe is hermetically and fixedly connected with the inner wall of the air inlet, the air pump is fixed at the top in the shell, the air pipe is arranged on the air pump, the shell is internally provided with a condensing device, the shell is provided with an auxiliary mechanism and a stabilizing mechanism, the auxiliary mechanism comprises a connecting pipe, a power assembly, two moving pipes and two transmission assemblies, the power assembly comprises fan blades, a rotating shaft, a first bearing and a driving gear, and the dehumidification range of the stable dehumidification equipment for the machine room is improved through the auxiliary mechanism, so that the stability is improved through the stabilizing.

Description

A stable form dehumidification equipment for computer lab

Technical Field

The invention relates to the field of equipment in a machine room, in particular to stable dehumidification equipment for the machine room.

Background

The dehumidifier is one of equipment in a machine room, and is characterized in that moist air is pumped into the machine room, moisture in the air is condensed into water drops through heat exchange, the treated dry air is discharged out of the machine room, the humidity in the machine room is reduced through circulation, and electronic equipment in the machine room is prevented from being damped and damaged.

In addition, when the existing dehumidifier is placed on the ground, the dehumidifier is easy to be knocked down and damaged, and the stability is reduced.

Disclosure of Invention

The technical problem to be solved by the invention is as follows: in order to overcome the defects of the prior art, a stable dehumidification device for a machine room is provided.

The technical scheme adopted by the invention for solving the technical problems is as follows: a stable dehumidification device for a machine room comprises a shell, an air pipe and an air pump, wherein the shell is in a cuboid shape, an air inlet hole is formed in the top of the shell, an air outlet hole is formed in the bottom of the shell, the air pipe vertically penetrates through the air inlet hole, the air pipe is hermetically and fixedly connected with the inner wall of the air inlet hole, the air pump is fixed to the top in the shell, the air pipe is installed on the air pump, a condensing device is arranged in the shell, and an auxiliary mechanism and a stabilizing mechanism are arranged on the shell;

the auxiliary mechanism comprises a connecting pipe, a power assembly, two moving pipes and two transmission assemblies, wherein the axis of the connecting pipe is perpendicular to and intersected with the axis of the air pipe, the middle end of the connecting pipe is fixed at the top end of the air pipe and is communicated with the air pipe, the moving pipes are coaxial with the connecting pipe, the two moving pipes are respectively inserted into the two ends of the connecting pipe, the moving pipes are in sliding and sealing connection with the connecting pipe, the power assembly is arranged in the shell, and the transmission assemblies correspond to the moving pipes one by one;

the power assembly comprises a fan blade, a rotating shaft, a first bearing and a driving gear, wherein the fan blade and the first bearing are arranged in an air pipe, the rotating shaft and the air pipe are coaxially arranged, the fan blade is arranged at the top end of the rotating shaft, the inner ring of the first bearing is arranged on the rotating shaft, the outer ring of the first bearing is fixedly connected with the inner wall of the air pipe, and the driving gear is positioned below the air pipe and is arranged on the rotating shaft;

the transmission assembly comprises a transmission shaft, a second bearing, a driven gear, an eccentric wheel, a ball and a mounting hole, the mounting hole is arranged at the top of the shell, the transmission shaft is parallel to the air pipe and penetrates through the mounting hole, the transmission shaft is connected with the inner wall of the mounting hole in a sliding and sealing way, the eccentric wheel is arranged at the top end of the transmission shaft, the driven gear is arranged at the bottom end of the transmission shaft and is meshed with the driving gear, the inner ring of the second bearing is arranged on the transmission shaft, the outer ring of the second bearing is fixedly connected with the shell, a first annular groove is arranged on the periphery of the eccentric wheel, the ball is positioned on one side of the eccentric wheel far away from the air pipe, the center of the ball is arranged in the first annular groove, the ball is matched with the first annular groove and is in sliding connection with the inner wall of the first annular groove, the ball diameter of the ball is larger than the width of the notch of the first annular groove, and the outer wall of the movable pipe is fixedly connected with the ball;

the stabilizing mechanism comprises a pushing assembly and four stabilizing assemblies, the stabilizing assemblies are circumferentially uniform by taking the axis of the air pipe as a center, and the pushing assembly is arranged at the bottom end of the rotating shaft;

the pushing assembly comprises a rotating disc, a moving disc, a connecting disc, two pushing units and two resetting units, the rotating disc, the moving disc and the connecting disc are all arranged coaxially with the rotating shaft, the rotating disc is fixed at the bottom end of the rotating shaft, the moving disc is arranged below the rotating disc, the connecting disc is located between the rotating disc and the moving disc, the pushing units are circumferentially and uniformly distributed by taking the axis of the rotating shaft as the center, and the resetting units and the pushing units are in one-to-one correspondence and are arranged at the bottom of the moving disc;

the pushing unit comprises a guide rod, a sliding block, a connecting rod and a connecting ball, the axis of the guide rod is perpendicular to and intersected with the axis of the rotating shaft, the guide rod is positioned between the rotating disc and the connecting disc, two ends of the guide rod are fixedly connected with the rotating disc, the sliding block is sleeved on the guide rod and is hinged with the top of the connecting disc through the connecting rod, the distance between one end of the connecting rod, close to the connecting disc, and the axis of the rotating shaft is larger than the distance between the other end of the connecting rod and the axis of the rotating shaft, a gap is arranged between the sliding block and one end of the guide rod, far away from the axis of the rotating shaft, a second annular groove is arranged at the top of the moving disc and is coaxial with the rotating shaft, the center of the connecting ball is arranged in the second annular groove, the connecting ball is matched with the second annular groove and is in sliding connection with the, the connecting ball is fixedly connected with the connecting disc;

the reset unit comprises a moving rod, a spring, a supporting block and a limiting block, the moving rod is parallel to the rotating shaft, one end of the moving rod is fixed at the bottom of the moving disc, the limiting block is fixed at the bottom end of the moving rod, a gap is formed between the limiting block and the bottom in the shell, the supporting block is fixed on the inner wall of the shell, a through hole is formed in the supporting block, the moving rod penetrates through the through hole and is in sliding connection with the inner wall of the through hole, the limiting block abuts against the bottom of the supporting block, the spring is located between the moving disc and the supporting block, and the moving disc is connected with;

the utility model discloses a stable subassembly, including fixed pipe, sucking disc, connecting wire, fixed pulley, lifter plate and round hole, the round hole sets up the bottom at the casing, fixed pipe just passes the round hole with the trachea is parallel, fixed pipe is located the below of removal dish, the sealed and fixed connection of inner wall of fixed pipe and round hole, the sucking disc is installed in the bottom of fixed pipe and is communicate with fixed pipe, the fixed pulley is fixed on the inner wall of shell and is located the top of removal dish, the lifter plate sets up in fixed pipe, the lifter plate slides and sealing connection with the inner wall of fixed pipe, the top at the lifter plate is fixed to the one end of connecting wire, the other end of connecting wire is walked around the fixed pulley and is fixed at the top of removal dish.

Preferably, the connection line is a steel wire rope in order to improve the reliability of the connection line.

Preferably, for noise reduction, a sound absorption plate is arranged in the connecting pipe.

Preferably, a filter screen is installed in the air pipe for dust prevention.

Preferably, in order to realize buffering and vibration reduction, the limiting block is made of rubber.

Preferably, the moving bar is coated with a lubricating oil in order to reduce friction between the moving bar and the support block.

Preferably, in order to facilitate the installation of the moving rod, both ends of the moving rod are provided with chamfers.

Preferably, in order to reduce a gap between the moving pipe and the connection pipe, a joint of the moving pipe and the connection pipe is coated with a sealing grease.

Preferably, the rotating shaft and the rotating disk are integrally formed in order to improve the reliability of the connection between the rotating shaft and the rotating disk.

Preferably, in order to prolong the service life of the fixing pipe, the fixing pipe is provided with an anti-corrosion zinc coating.

The stable dehumidification device for the machine room has the advantages that the dehumidification range is improved through the auxiliary mechanism, compared with the existing auxiliary mechanism, the auxiliary mechanism can drive the lifting disc to ascend in the fixed pipe through the rotation of the rotating shaft serving as a driving force, an integrated linkage structure is realized through the stabilizing mechanism, the movable pipe is moved through the flowing of air serving as the driving force, the energy is saved, the practicability is higher, the stability is improved through the stabilizing mechanism, compared with the existing stabilizing mechanism, the stabilizing mechanism controls the suction disc to be adsorbed on the ground through the operation state of the air pump, and the automation degree is higher.

Drawings

The invention is further illustrated with reference to the following figures and examples.

Fig. 1 is a schematic structural view of a stabilized dehumidification apparatus for a machine room according to the present invention;

fig. 2 is a schematic structural view of an auxiliary mechanism of the stabilized type dehumidifying apparatus for a machine room of the present invention;

fig. 3 is a schematic structural view of a power assembly of the stabilized dehumidification plant for a machine room of the present invention;

FIG. 4 is a schematic diagram of the push assembly of the stabilized dehumidification apparatus for a machine room of the present invention;

in the figure: 1. the air pump comprises a shell, 2, an air pipe, 3, an air pump, 4, a connecting pipe, 5, a moving pipe, 6, fan blades, 7, a rotating shaft, 8, a first bearing, 9, a driving gear, 10, a transmission shaft, 11, a second bearing, 12, a driven gear, 13, an eccentric wheel, 14, a ball, 15, a rotating disc, 16, a moving disc, 17, a connecting disc, 18, a guide rod, 19, a sliding block, 20, a connecting rod, 21, a connecting ball, 22, a moving rod, 23, a spring, 24, a supporting block, 25, a limiting block, 26, a fixing pipe, 27, a sucking disc, 28, a connecting wire, 29, a fixed pulley, 30, a lifting disc, 31, a sound absorbing plate and 32 a filter screen.

Detailed Description

The present invention will now be described in further detail with reference to the accompanying drawings. These drawings are simplified schematic views illustrating only the basic structure of the present invention in a schematic manner, and thus show only the constitution related to the present invention.

As shown in fig. 1-3, a stable dehumidification device for a machine room comprises a housing 1, an air pipe 2 and an air pump 3, wherein the housing 1 is shaped like a cuboid, an air inlet is formed in the top of the housing 1, an air outlet is formed in the bottom of the housing 1, the air pipe 2 vertically penetrates through the air inlet, the air pipe 2 is hermetically and fixedly connected with the inner wall of the air inlet, the air pump 3 is fixed at the top of the housing 1, the air pipe 2 is installed on the air pump 3, a condensing unit is arranged in the housing 1, and an auxiliary mechanism and a stabilizing mechanism are arranged on the housing 1;

the auxiliary mechanism comprises a connecting pipe 4, a power assembly, two moving pipes 5 and two transmission assemblies, wherein the axis of the connecting pipe 4 is perpendicular to and intersected with the axis of the air pipe 2, the middle end of the connecting pipe 4 is fixed at the top end of the air pipe 2 and is communicated with the air pipe 2, the moving pipes 5 are coaxial with the connecting pipe 4, the two ends of the connecting pipe 4 are respectively inserted into the two moving pipes 5, the moving pipes 5 are in sliding and sealing connection with the connecting pipe 4, the power assembly is arranged in the shell 1, and the transmission assemblies are in one-to-one correspondence with the moving pipes 5;

the power assembly comprises fan blades 6, a rotating shaft 7, a first bearing 8 and a driving gear 9, the fan blades 6 and the first bearing 8 are arranged in the air pipe 2, the rotating shaft 7 and the air pipe 2 are coaxially arranged, the fan blades 6 are installed at the top end of the rotating shaft 7, the inner ring of the first bearing 8 is installed on the rotating shaft 7, the outer ring of the first bearing 8 is fixedly connected with the inner wall of the air pipe 2, and the driving gear 9 is located below the air pipe 2 and installed on the rotating shaft 7;

the transmission assembly comprises a transmission shaft 10, a second bearing 11, a driven gear 12, an eccentric wheel 13, a ball 14 and a mounting hole, the mounting hole is formed in the top of the shell 1, the transmission shaft 10 is parallel to the air pipe 2 and penetrates through the mounting hole, the transmission shaft 10 is connected with the inner wall of the mounting hole in a sliding and sealing manner, the eccentric wheel 13 is installed on the top end of the transmission shaft 10, the driven gear 12 is installed at the bottom end of the transmission shaft 10 and is meshed with the driving gear 9, the inner ring of the second bearing 11 is installed on the transmission shaft 10, the outer ring of the second bearing 11 is fixedly connected with the shell 1, a first annular groove is formed in the periphery of the eccentric wheel 13, the ball 14 is located on one side of the eccentric wheel 13, which is far away from the air pipe 2, the center of the ball 14 is arranged in the first annular groove, the ball 14, the ball diameter of the ball 14 is larger than the width of the notch of the first annular groove, and the outer wall of the moving pipe 5 is fixedly connected with the ball 14;

during the use of the equipment, start through air pump 3, make the air carry from moving pipe 5 to connecting pipe 4 back again from trachea 2 to casing 1 in, and make the moisture content condensation in the air become the drop of water through condensing equipment, make the air venthole discharge afterwards, realize the dehumidification, and flow through the air in trachea 2 as the drive make flabellum 6 rotate, can be so that axis of rotation 7 drives drive gear 9 and rotates under the supporting action of first bearing 8, drive gear 9's rotation drives transmission shaft 10 through driven gear 12 and rotates under the supporting action of second bearing 11, the rotation of transmission shaft 10 drives eccentric wheel 13 and rotates, the rotation of eccentric wheel 13 drives moving pipe 5 reciprocating motion on connecting pipe 4 through ball 14, thereby can improve the scope of connecting pipe 4 air-intake, can be in order to improve the dehumidification scope.

As shown in fig. 4, the stabilizing mechanism comprises a pushing assembly and four stabilizing assemblies, the stabilizing assemblies are circumferentially uniform by taking the axis of the air pipe 2 as a center, and the pushing assembly is arranged at the bottom end of the rotating shaft 7;

the pushing assembly comprises a rotating disc 15, a moving disc 16, a connecting disc 17, two pushing units and two resetting units, the rotating disc 15, the moving disc 16 and the connecting disc 17 are all arranged coaxially with the rotating shaft 7, the rotating disc 15 is fixed at the bottom end of the rotating shaft 7, the moving disc 16 is arranged below the rotating disc 15, the connecting disc 17 is located between the rotating disc 15 and the moving disc 16, the pushing units are circumferentially and uniformly distributed by taking the axis of the rotating shaft 7 as the center, and the resetting units and the pushing units are in one-to-one correspondence and are arranged at the bottom of the moving disc 16;

the pushing unit comprises a guide rod 18, a sliding block 19, a connecting rod 20 and a connecting ball 21, the axis of the guide rod 18 is perpendicular to and intersected with the axis of the rotating shaft 7, the guide rod 18 is positioned between the rotating disc 15 and the connecting disc 17, two ends of the guide rod 18 are fixedly connected with the rotating disc 15, the sliding block 19 is sleeved on the guide rod 18, the sliding block 19 is hinged to the top of the connecting disc 17 through the connecting rod 20, the distance between one end, close to the connecting disc 17, of the connecting rod 20 and the axis of the rotating shaft 7 is larger than the distance between the other end of the connecting rod 20 and the axis of the rotating shaft 7, a gap is formed between the sliding block 19 and one end, far away from the axis of the rotating shaft 7, of the sliding block 18 and the guide rod 16, a second annular groove is formed in the top of the moving disc 16 and is coaxial with the rotating shaft 7, the center of the connecting ball 21 is arranged in the, the ball diameter of the connecting ball 21 is larger than the width of the notch of the second annular groove, and the connecting ball 21 is fixedly connected with the connecting disc 17;

the reset unit comprises a moving rod 22, a spring 23, a supporting block 24 and a limiting block 25, the moving rod 22 is parallel to the rotating shaft 7, one end of the moving rod 22 is fixed at the bottom of the moving disk 16, the limiting block 25 is fixed at the bottom end of the moving rod 22, a gap is formed between the limiting block 25 and the bottom in the shell, the supporting block 24 is fixed on the inner wall of the shell, a through hole is formed in the supporting block 24, the moving rod 22 penetrates through the through hole and is in sliding connection with the inner wall of the through hole, the limiting block 25 abuts against the bottom of the supporting block 24, the spring 23 is located between the moving disk 16 and the supporting block 24, and the moving disk 16 is connected with the;

the stabilizing component comprises a fixed pipe 26, a sucker 27, a connecting wire 28, a fixed pulley 29, a lifting disc 30 and a round hole, the round hole is arranged at the bottom of the shell body 1, the fixed pipe 26 is parallel to the air pipe 2 and penetrates through the round hole, the fixed pipe 26 is positioned below the lifting disc 16, the fixed pipe 26 is sealed and fixedly connected with the inner wall of the round hole, the sucker 27 is installed at the bottom end of the fixed pipe 26 and communicated with the fixed pipe 26, the fixed pulley 29 is fixed on the inner wall of the shell and positioned above the lifting disc 16, the lifting disc 30 is arranged in the fixed pipe 26, the lifting disc 30 is connected with the inner wall of the fixed pipe 26 in a sliding and sealing mode, the top of the lifting disc 30 is fixed to one end of the connecting wire 28, and the other end of the connecting wire 28 is wound around the fixed pulley 29 to be fixed at.

When the device is used, the sucking disc 27 is placed on the ground, the rotation of the rotating shaft 7 drives the rotating disc 15 to rotate, the rotation of the rotating disc 15 drives the connecting disc 17 to rotate through the guide rod 18, the sliding block 19 and the connecting rod 20, the rotation of the connecting disc 17 drives the connecting ball 21 to rotate in the second annular groove, here, the matching of the connecting ball 21 and the second annular groove can play a role in supporting the connecting disc 17, in addition, the sliding block 19 moves towards the direction far away from the axis of the rotating shaft 7 under the action of centrifugal force, the sliding block 19 moves to drive the connecting disc 17 to move downwards through the connecting rod 20, the downward movement of the connecting disc 17 drives the moving disc 16 to move downwards through the connecting ball 21, the downward movement of the moving disc 16 drives the moving rod 22 to realize synchronous movement, the spring 23 is compressed, and the downward movement of the moving disc 16 also pulls the lifting disc 30 to rise in the fixed tube, the sucking disc 27 can be adsorbed on the ground under the action of air pressure, the stability of the shell 1 is improved, the shell 1 is prevented from being damaged due to knocking over, after the air pump 3 stops running, the rotating shaft 7 stops rotating, the movable disc 16 resets under the elastic action of the spring 23, the connecting wire 28 is loosened, the movable disc 16 resets and drives the sliding block 19 to reset through the connecting ball 21, the connecting disc 17 and the connecting rod 20, the lifting disc 30 moves upwards under the action of the air pressure, and the sucking disc 27 stops being adsorbed on the ground.

Preferably, the connection line 28 is a steel wire rope in order to improve the reliability of the connection line 28.

The steel wire rope has the characteristics of high strength, difficulty in breaking and the like, so that the reliability of the connecting wire 28 can be improved.

Preferably, a sound-absorbing plate 31 is provided in the connecting tube 4 for noise reduction.

The sound-absorbing plate 31 can absorb noise, achieving noise reduction.

Preferably, a filter 32 is installed in the air tube 2 for dust prevention.

Dust in the air can be trapped through the filter screen 32, and dust prevention is achieved.

Preferably, in order to achieve buffering and vibration reduction, the limiting block 25 is made of rubber.

The rubber texture is softer, and the impact force generated when the limiting block 25 abuts against the supporting block 24 can be reduced, so that the buffering and the vibration reduction are realized.

Preferably, in order to reduce the friction between the moving bar 22 and the support block 24, the moving bar 22 is coated with a lubricating oil.

The lubricating oil functions to reduce the friction between the moving rod 22 and the support block 24, and to improve the smoothness of movement of the moving rod 22.

Preferably, in order to facilitate the installation of the moving rod 22, both ends of the moving rod 22 are chamfered.

The chamfer serves to reduce the diameter of the travel bar 22 as it passes through the through hole, providing an easy installation.

Preferably, in order to reduce the gap between the moving tube 5 and the connection tube 4, the joint of the moving tube 5 and the connection tube 4 is coated with a sealing grease.

The sealing grease serves to reduce the gap between the moving pipe 5 and the connecting pipe 4, and improves the sealing property.

Preferably, in order to improve the reliability of the connection between the rotating shaft 7 and the rotating disc 15, the rotating shaft 7 and the rotating disc 15 are integrally molded.

The integrally formed structure has a high strength, so that the reliability of the connection of the rotary shaft 7 and the rotary disk 15 can be improved.

Preferably, in order to prolong the service life of the fixing pipe 26, the fixing pipe 26 is provided with an anti-corrosion zinc coating.

The anti-corrosion zinc coating is used for improving the anti-rust capacity of the fixed pipe 26 and prolonging the service life of the fixed pipe 26.

When the device is used, the sucking disc 27 is placed on the ground, the air pump 3 is started, air is conveyed from the moving pipe 5 to the connecting pipe 4 and then conveyed from the air pipe 2 to the shell 1, moisture in the air is condensed into water drops through the condensing device, then air outlet holes are discharged, dehumidification is realized, the fan blades 6 are driven to rotate through the flowing of the air in the air pipe 2, the rotating shaft 7 can drive the driving gear 9 to rotate under the supporting action of the first bearing 8, the driving gear 9 rotates to drive the transmission shaft 10 to rotate under the supporting action of the second bearing 11 through the driven gear 12, the eccentric wheel 13 is driven to rotate by the rotation of the transmission shaft 10, the moving pipe 5 is driven by the rotation of the eccentric wheel 13 through the ball 14 to reciprocate on the connecting pipe 4, so that the range of air sucked by the connecting pipe 4 can be increased, the dehumidification range can be increased, and, the rotation of the rotating shaft 7 drives the rotating disc 15 to rotate, the rotation of the rotating disc 15 drives the connecting disc 17 to rotate through the guide rod 18, the sliding block 19 and the connecting rod 20, the rotation of the connecting disc 17 drives the connecting ball 21 to rotate in the second annular groove, here, the cooperation of the connecting ball 21 and the second annular groove can play a role in supporting the connecting disc 17, and the sliding block 19 moves towards the direction far away from the axis of the rotating shaft 7 under the action of centrifugal force, the sliding block 19 moves to drive the connecting disc 17 to move downwards through the connecting rod 20, the connecting disc 17 moves downwards to drive the moving disc 16 to move downwards through the connecting ball 21, the moving rod 22 is driven to move synchronously by the downward movement of the moving disc 16, the spring 23 is compressed, and the downward movement of the moving disc 16 also pulls the lifting disc 30 to rise in the fixed pipe 26 through the connecting wire 28, so that the air pressure in the sucking disc 27 is reduced, the stability of the casing 1 is improved, the casing 1 is prevented from being damaged due to the collision, after the air pump 3 stops running, the rotating shaft 7 stops rotating, the movable disc 16 resets under the elastic action of the spring 23, the connecting wire 28 is loosened, the reset of the movable disc 16 drives the sliding block 19 to reset through the connecting ball 21, the connecting disc 17 and the connecting rod 20, the lifting disc 30 moves upwards under the action of air pressure, and the sucking disc 27 stops being adsorbed on the ground.

Compared with the prior art, this a stable form dehumidification equipment for computer lab has improved the dehumidification scope through complementary unit, compare with current complementary unit, this complementary unit can also drive lifting disk 30 and rise in fixed pipe 26 as drive power through the rotation of axis of rotation 7, integral type linkage structure has been realized with stabilizing mean, moreover, flow through the air makes removal pipe 5 remove as drive power, it is more energy-conserving, the practicality is stronger, moreover, still improve stability through stabilizing mean, compare with current stabilizing mean, this stabilizing mean adsorbs subaerial through running state control sucking disc 27 of air pump 3, degree of automation is higher.

In light of the foregoing description of the preferred embodiment of the present invention, many modifications and variations will be apparent to those skilled in the art without departing from the spirit and scope of the invention. The technical scope of the present invention is not limited to the content of the specification, and must be determined according to the scope of the claims.

Claims

1. The utility model provides a stable form dehumidification equipment for computer lab, includes casing (1), trachea (2) and air pump (3), the shape of casing (1) is the cuboid, the top of casing (1) is equipped with the inlet port, the bottom of casing (1) is equipped with the venthole, trachea (2) vertically pass the inlet port, trachea (2) are sealed and fixed connection with the inner wall of inlet port, top in casing (1) is fixed in air pump (3), trachea (2) are installed on air pump (3), be equipped with condensing equipment in casing (1), its characterized in that, be equipped with complementary unit and stabilizing mean on casing (1);

the auxiliary mechanism comprises a connecting pipe (4), a power assembly, two moving pipes (5) and two transmission assemblies, wherein the axis of the connecting pipe (4) is perpendicular to and intersected with the axis of the air pipe (2), the middle end of the connecting pipe (4) is fixed at the top end of the air pipe (2) and communicated with the air pipe (2), the moving pipes (5) are coaxial with the connecting pipe (4), the two moving pipes (5) are respectively inserted into the two ends of the connecting pipe (4), the moving pipes (5) are connected with the connecting pipe (4) in a sliding and sealing mode, the power assembly is arranged in the shell (1), and the transmission assemblies correspond to the moving pipes (5) one to one;

the power assembly comprises fan blades (6), a rotating shaft (7), a first bearing (8) and a driving gear (9), the fan blades (6) and the first bearing (8) are arranged in the air pipe (2), the rotating shaft (7) and the air pipe (2) are coaxially arranged, the fan blades (6) are installed at the top end of the rotating shaft (7), the inner ring of the first bearing (8) is installed on the rotating shaft (7), the outer ring of the first bearing (8) is fixedly connected with the inner wall of the air pipe (2), and the driving gear (9) is located below the air pipe (2) and installed on the rotating shaft (7);

the transmission assembly comprises a transmission shaft (10), a second bearing (11), a driven gear (12), an eccentric wheel (13), balls (14) and a mounting hole, the mounting hole is formed in the top of the shell (1), the transmission shaft (10) is parallel to the air pipe (2) and penetrates through the mounting hole, the transmission shaft (10) is connected with the inner wall of the mounting hole in a sliding and sealing mode, the eccentric wheel (13) is installed at the top end of the transmission shaft (10), the driven gear (12) is installed at the bottom end of the transmission shaft (10) and meshed with the driving gear (9), the inner ring of the second bearing (11) is installed on the transmission shaft (10), the outer ring of the second bearing (11) is fixedly connected with the shell (1), a first annular groove is formed in the periphery of the eccentric wheel (13), and the balls (14) are located on one side, far away from the air pipe (2), of the, the center of the ball (14) is arranged in the first annular groove, the ball (14) is matched with the first annular groove and is in sliding connection with the inner wall of the first annular groove, the diameter of the ball (14) is larger than the width of a notch of the first annular groove, and the outer wall of the moving pipe (5) is fixedly connected with the ball (14);

the stabilizing mechanism comprises a pushing assembly and four stabilizing assemblies, the stabilizing assemblies are circumferentially uniform by taking the axis of the air pipe (2) as a center, and the pushing assembly is arranged at the bottom end of the rotating shaft (7);

the pushing assembly comprises a rotating disc (15), a moving disc (16), a connecting disc (17), two pushing units and two resetting units, wherein the rotating disc (15), the moving disc (16) and the connecting disc (17) are coaxially arranged with the rotating shaft (7), the rotating disc (15) is fixed at the bottom end of the rotating shaft (7), the moving disc (16) is arranged below the rotating disc (15), the connecting disc (17) is positioned between the rotating disc (15) and the moving disc (16), the pushing units are circumferentially and uniformly distributed by taking the axis of the rotating shaft (7) as the center, and the resetting units correspond to the pushing units one to one and are arranged at the bottom of the moving disc (16);

the pushing unit comprises a guide rod (18), a sliding block (19), a connecting rod (20) and a connecting ball (21), the axis of the guide rod (18) is perpendicular to and intersected with the axis of the rotating shaft (7), the guide rod (18) is positioned between the rotating disc (15) and the connecting disc (17), two ends of the guide rod (18) are fixedly connected with the rotating disc (15), the sliding block (19) is sleeved on the guide rod (18), the sliding block (19) is hinged with the top of the connecting disc (17) through the connecting rod (20), the distance between one end, close to the connecting disc (17), of the connecting rod (20) and the axis of the rotating shaft (7) is larger than the distance between the other end of the connecting rod (20) and the axis of the rotating shaft (7), a gap is formed between one end, far away from the axis of the rotating shaft (7), of the sliding block (19) and the guide rod (18), and a second annular groove is, the second annular groove is coaxial with the rotating shaft (7), the sphere center of the connecting ball (21) is arranged in the second annular groove, the connecting ball (21) is matched with the second annular groove and is in sliding connection with the inner wall of the second annular groove, the sphere diameter of the connecting ball (21) is larger than the width of a notch of the second annular groove, and the connecting ball (21) is fixedly connected with the connecting disc (17);

the reset unit comprises a moving rod (22), a spring (23), a supporting block (24) and a limiting block (25), the moving rod (22) is parallel to the rotating shaft (7), one end of the moving rod (22) is fixed to the bottom of the moving disc (16), the limiting block (25) is fixed to the bottom end of the moving rod (22) and a gap is formed between the limiting block (25) and the bottom of the shell, the supporting block (24) is fixed to the inner wall of the shell, a through hole is formed in the supporting block (24), the moving rod (22) penetrates through the through hole and is in sliding connection with the inner wall of the through hole, the limiting block (25) abuts against the bottom of the supporting block (24), the spring (23) is located between the moving disc (16) and the supporting block (24), and the moving disc (16) is connected with the supporting block (24) through the;

the stabilizing component comprises a fixed pipe (26), a sucker (27), a connecting wire (28), a fixed pulley (29), a lifting disc (30) and a round hole, the round hole is arranged at the bottom of the shell (1), the fixed pipe (26) is parallel to the air pipe (2) and penetrates through the round hole, the fixed pipe (26) is positioned below the movable disc (16), the fixed pipe (26) is hermetically and fixedly connected with the inner wall of the round hole, the sucker (27) is arranged at the bottom end of the fixed pipe (26) and is communicated with the fixed pipe (26), the fixed pulley (29) is fixed on the inner wall of the shell and is positioned above the moving disk (16), the lifting disc (30) is arranged in the fixed pipe (26), the lifting disc (30) is connected with the inner wall of the fixed pipe (26) in a sliding and sealing way, one end of the connecting wire (28) is fixed on the top of the lifting disc (30), and the other end of the connecting wire (28) is fixed on the top of the moving disc (16) by bypassing the fixed pulley (29).

2. A stabilized dehumidification apparatus for a machine room according to claim 1, wherein said connection line (28) is a steel wire rope.

3. A stabilized dehumidification apparatus for a machine room according to claim 1, wherein sound-absorbing panels (31) are provided in said connection pipe (4).

4. A stabilized dehumidification apparatus for a machine room according to claim 1, wherein a filter screen (32) is installed in said air pipe (2).

5. A stabilized dehumidification apparatus for a machine room as in claim 1, wherein said limiting block (25) is made of rubber.

6. A stabilized dehumidification apparatus for a machine room according to claim 1, wherein said moving bar (22) is coated with a lubricant.

7. A stabilized dehumidification apparatus for a machine room according to claim 1, wherein both ends of said moving bar (22) are chamfered.

8. A stabilized dehumidification apparatus for a machine room according to claim 1, wherein the joint of said moving pipe (5) and connecting pipe (4) is coated with sealing grease.

9. A stabilized dehumidification apparatus for a machine room according to claim 1, wherein said rotating shaft (7) and said rotating disc (15) are of an integral structure.

10. A stabilized dehumidification apparatus for a computer room as set forth in claim 1, wherein said fixing pipe (26) is provided with an anti-corrosion zinc plating layer.