CN221120443U - Air suspension air-blower cooling air duct structure - Google Patents

Abstract

The utility model discloses an air suspension blower cooling air duct structure, which belongs to the technical field of blower cooling and comprises a blower, wherein an exhaust port is arranged on the right side of the blower, a heat radiation structure is arranged above the blower, the heat radiation structure is communicated with a plurality of spherical shells, and the spherical shells are fixedly connected to an annular plate. This air suspension air-blower cooling wind channel structure through setting up piston rod, bevel connection, elastic structure and heat radiation structure, after the air-blower wind channel accumulates heat for the heat absorption shell absorbs heat and makes its inside gas expansion control piston rod motion, and then the elastic force of cooperation elastic structure can drive the annular duct through the bevel connection and rotate, makes spherical shell and wind channel air inlet correspond, and carries out the air supply through heat radiation structure, with this conveying speed that can accelerate the air, and then can improve the radiating operation of air-blower, and this mode touches when the heat is higher moreover, avoids directly using the problem that leads to the power consumption.

Description

Air suspension air-blower cooling air duct structure

Technical Field

The utility model belongs to the technical field of air blower cooling, and particularly relates to an air suspension air blower cooling air duct structure.

Background

An air suspension blower is a blower in which air generates a dynamic pressure effect between a rotor and a foil bearing surface under high-speed rotation of a blower rotor, and a high-pressure air film is formed to lift the rotor.

When the air suspension blower is in high-efficiency operation, the air suspension blower can generate operation heat, heat needs to be discharged in time to ensure good working state and operation stability of the air suspension blower, the existing heat radiation mode of the air suspension blower mainly depends on a heat radiation fan on a rotor, a plurality of air inlets are formed in a blower shell, the heat radiation fan operates to enable external air to enter the blower through the air inlets and circulate, and then the operation heat is discharged from an exhaust port, but the heat radiation capability is poor, normal heat radiation under a steady state can only be realized, when the temperature of the air suspension blower is high, the heat radiation capability cannot be automatically improved, the temperature is accumulated more, and the heat radiation and cooling effects of the blower are affected.

Disclosure of utility model

In order to overcome the defects in the prior art, the utility model provides the cooling air duct structure of the air suspension blower, which solves the problems that when the temperature of the air suspension blower is higher, the heat dissipation capacity cannot be automatically improved, so that the temperature is more concentrated, and the heat dissipation and cooling effects of the blower are affected.

In order to achieve the above purpose, the present utility model provides the following technical solutions: the utility model provides an air suspension air-blower cooling air duct structure, includes the air-blower, the right side of air-blower is equipped with the gas vent, heat radiation structure is installed to the top of air-blower, communicate between heat radiation structure and the multiple spherical shell, multiple spherical shell fixed connection is on the annular plate, the annular plate rotates through two bearings and connects on the air-blower, the air-blower communicates with multiple spherical shell respectively through a plurality of gas ports, and the annular plate is located to the gas port, install a plurality of filter layers on the annular plate, a plurality of filter layers correspond with a plurality of air duct air inlet respectively, and the air duct air inlet is seted up at the air-blower periphery, fixedly connected with heat absorption shell on the air-blower, the inside piston rod that is equipped with of heat absorption shell, the one end that the heat absorption shell was worn out to the piston rod is arranged in the bevel connection, the bevel connection is seted up on the fixed plate, the fixed plate is connected with heat radiation structure, piston rod outside fixedly connected with elastic structure, elastic structure fixed connection is on the air-blower.

As a further aspect of the utility model: the heat radiation structure comprises a fan, the fan is arranged on a blower, a filter is arranged on an air inlet of the fan, and an air outlet of the fan is communicated with an annular pipe through a hose.

As a further aspect of the utility model: the annular pipe is sleeved outside the blower, the annular pipe is communicated with the spherical shells, and the annular pipe is fixedly connected with the fixing plate.

As a further aspect of the utility model: and a second spring is fixedly connected between one side of the piston rod and the end wall of the heat absorption shell.

As a further aspect of the utility model: the elastic structure comprises a hinge block which is fixedly connected to the rod part of the piston rod, the hinge block is hinged to two telescopic rods through two pin shafts respectively, one end, away from the hinge block, of each telescopic rod is hinged to a connecting block through a pin shaft, and the connecting block is fixedly connected to the blower.

As a further aspect of the utility model: the two ends of the telescopic rod are fixedly connected with the two ends of the first spring respectively, a switch is arranged on the blower through a bracket, and the switch corresponds to the cylindrical protruding part of the hinging block.

Compared with the prior art, the utility model has the beneficial effects that:

This air suspension air-blower cooling wind channel structure through setting up piston rod, bevel connection, elastic structure and heat radiation structure, after the air-blower wind channel accumulates heat for the heat absorption shell absorbs heat and makes its inside gas expansion control piston rod motion, and then the elastic force of cooperation elastic structure can drive the annular duct through the bevel connection and rotate, makes spherical shell and wind channel air inlet correspond, and carries out the air supply through heat radiation structure, with this conveying speed that can accelerate the air, and then can improve the radiating operation of air-blower, and this mode touches when the heat is higher moreover, avoids directly using the problem that leads to the power consumption.

This air suspension air-blower cooling wind channel structure through setting up filter layer and filter, and filters the air when the filter layer can keep admitting air naturally, avoids impurity in the air to get into the air-blower, and the filter can prevent equally that impurity from getting into in the fan, all adds the hygroscopic layer in second filter and the filter layer, and then can play the effect of dehumidification.

This air suspension air-blower cooling air duct structure through setting up the switch, when the piston rod motion drove the articulated piece and is close to the switch for the cylinder bellying of articulated piece presses the touch switch, can realize starting the operation of fan this moment, and then can trigger the heat dissipation operation of air-blower automatically.

Drawings

FIG. 1 is a schematic view of a three-dimensional structure of the present utility model;

FIG. 2 is a schematic view of a three-dimensional cross-sectional structure of a blower according to the present utility model;

FIG. 3 is an enlarged schematic view of the structure of FIG. 2A according to the present utility model;

FIG. 4 is a schematic view of a heating structure according to the present utility model;

FIG. 5 is a schematic view of a three-dimensional cross-sectional structure of a heat absorbing shell according to the present utility model;

FIG. 6 is a schematic view of a resilient structure of the present utility model;

In the figure: 1 blower, 2 heat absorption shell, 3 heat radiation structure, 31 blower, 32 filter, 33 annular pipe, 34 hose, 4 gas vent, 5 spherical shell, 6 elastic structure, 61 telescopic link, 62 first spring, 63 connecting block, 64 hinged block, 7 filter layer, 8 second spring, 9 annular plate, 10 fixed plate, 11 wind channel air inlet, 12 piston rod, 13 bevel connection, 14 switch.

Detailed Description

The technical scheme of the patent is further described in detail below with reference to the specific embodiments.

As shown in fig. 1-6, the present utility model provides a technical solution: the utility model provides an air suspension air-blower cooling air duct structure, including air-blower 1, the right side of air-blower 1 is equipped with gas vent 4, heat radiation structure 3 is installed to the top of air-blower 1, heat radiation structure 3 includes fan 31, fan 31 installs on air-blower 1, install filter 32 on the air intake of fan 31, the air outlet of fan 31 communicates through hose 34 has annular pipe 33, hose 34 intercommunication can ensure the gas-supply effect, and hose 34 has the elasticity, make annular pipe 33 can smooth motion, annular pipe 33 cover is established outside air-blower 1, annular pipe 33 communicates with a plurality of spherical shells 5, fixed connection between annular pipe 33 and the fixed plate 10, fan 31 passes through hose 34 and annular pipe 33 conveying gas, make the gas get into inside air-blower 1 through spherical shell 5, so as to accelerate the air flow rate, improve air-blower 1's radiating efficiency;

the heat dissipation structure 3 is communicated with the spherical shells 5, the spherical shells 5 are fixedly connected to the annular plate 9, the annular plate 9 is rotationally connected to the air blower 1 through two bearings, the air blower 1 is respectively communicated with the spherical shells 5 through a plurality of air ports, the air ports are formed in the annular plate 9, the annular plate 9 is provided with a plurality of filter layers 7, the filter layers 7 can filter air when natural air intake is kept, impurities in the air are prevented from entering the air blower 1, the filter 32 can also prevent the impurities from entering the air blower 31, and moisture absorption layers are added to the filter 32 and the filter layers 7, so that the effect of dehumidifying can be achieved;

The filter layers 7 respectively correspond to the air inlet 11 of the air duct, the air inlet 11 of the air duct is arranged on the periphery of the air blower 1, the air blower 1 is fixedly connected with the heat absorbing shell 2, the heat absorbing shell 2 is made of heat absorbing materials, so that the heat absorbing shell can absorb heat, further, the heat accumulation on the heat absorbing shell 2 can be quickened, a piston rod 12 is arranged in the heat absorbing shell 2, a second spring 8 is fixedly connected between one side of the piston rod 12 and the end wall of the heat absorbing shell 2, after the heat is reduced, the second spring 8 can drive the piston rod 12 to reset, the piston rod 12 can drive the hinging block 64 to return to the right smoothly, one end of the piston rod 12 penetrating through the heat absorbing shell 2 is positioned in the bevel 13, the bevel 13 is obliquely designed, the piston rod 12 realizes the movement of extruding the movable plate through the bevel 13, the annular tube 33 can rotate to drive the spherical shell 5 to correspond to the position of the air inlet 11, the bevel 13 is arranged on the fixed plate 10, the fixed plate 10 is connected with the heat radiation structure 3, the elastic structure 6 is fixedly connected outside the piston rod 12, the elastic structure 6 is fixedly connected on the blower 1, the elastic structure 6 comprises a hinging block 64, the hinging block 64 is fixedly connected on the rod part of the piston rod 12, the hinging block 64 is respectively hinged with two telescopic rods 61 through two pin shafts, when the piston rod 12 pushes out to move, the telescopic rods 61 are first contracted and perform angle rotation, when the telescopic rods 61 turn to the left side, the elastic force of the first springs 62 can drive the telescopic rods 61 to reset, so that the piston rod 12 can be assisted to continuously move leftwards, one end of the telescopic rods 61 away from the hinging block 64 is hinged with a connecting block 63 through the pin shafts, the connecting block 63 is fixedly connected on the blower 1, two ends of the telescopic rods 61 are respectively fixedly connected with two ends of the first springs 62, the blower 1 is provided with a switch 14 through a bracket, the switch 14 corresponds to the cylindrical protruding portion of the hinge block 64, when the piston rod 12 moves to drive the hinge block 64 to approach the switch 14, the cylindrical protruding portion of the hinge block 64 presses the switch 14, and at this time, the operation of starting the fan 31 can be realized, so that the heat dissipation operation of the blower 1 can be automatically triggered.

The working principle of the utility model is as follows:

When radiating, the air duct of the fan 31 body 1 accumulates heat, the heat absorbing shell 2 can absorb heat, the heat absorbing shell 2 absorbs heat and can heat internal gas, the gas is heated and expanded to drive the piston rod 12 to move, the piston rod 12 drives the hinge block 64 to move, the hinge block 64 drives the telescopic rod 61 and the first spring 62 to shrink, the angle of the telescopic rod 61 is changed, when the telescopic rod 61 is shifted from the middle to the left side, the elastic force matched with the first spring 62 can assist the piston rod 12 to move continuously, the piston rod 12 can extrude the fixing plate 10 and the annular tube 33 to rotate through the bevel 13, the spherical shell 5 corresponds to the air duct air inlet 11, the cylindrical protruding part of the hinge block 64 controls the fan 31 to start according to the touch switch 14, the air conveying of the fan 31 enters the spherical shell 5 through the annular tube 33, and enters the fan 1 through the air port, the air flowing speed of the air can be accelerated, and the heat exchanging speed of the air can be accelerated in the same way, and the radiating speed of the fan 1 is facilitated.

In the description of the present utility model, it should be noted that, unless explicitly specified and limited otherwise, the terms "mounted," "connected," and "connected" are to be construed broadly, and may be either fixedly connected, detachably connected, or integrally connected, for example; can be mechanically or electrically connected; can be directly connected or indirectly connected through an intermediate medium, and can be communication between two elements. The specific meaning of the above terms in the present utility model can be understood by those of ordinary skill in the art in a specific case.

While the preferred embodiments of the present patent have been described in detail, the present patent is not limited to the above embodiments, and various changes may be made without departing from the spirit of the present patent within the knowledge of one of ordinary skill in the art.

Claims (6)

1. The utility model provides an air suspension air-blower cooling air duct structure, includes air-blower (1), its characterized in that: the right side of air-blower (1) is equipped with gas vent (4), heat radiation structure (3) are installed to the top of air-blower (1), heat radiation structure (3) and a plurality of spherical shell (5) between communicate, a plurality of spherical shell (5) fixed connection are on annular plate (9), annular plate (9) are rotated through two bearings and are connected on air-blower (1), air-blower (1) are respectively with a plurality of spherical shell (5) intercommunication through a plurality of gas ports, and the gas port is located on annular plate (9), install a plurality of filter layers (7) on annular plate (9), a plurality of filter layers (7) correspond with a plurality of wind channel air inlet (11) respectively, wind channel air inlet (11) are seted up at air-blower (1) periphery, fixedly connected with heat absorption shell (2) on air-blower (1), the inside piston rod (12) that is equipped with of heat absorption shell (2), one end that piston rod (12) worn out heat absorption shell (2) is located bevel connection (13), bevel connection (13) are seted up on fixed plate (10), fixed plate (10) and heat radiation structure (6) are connected with on air-blower (6) are fixed to elasticity.

2. The air suspension blower cooling air duct structure according to claim 1, wherein: the heat radiation structure (3) comprises a fan (31), the fan (31) is arranged on the air blower (1), a filter (32) is arranged on an air inlet of the fan (31), and an air outlet of the fan (31) is communicated with an annular pipe (33) through a hose (34).

3. The air suspension blower cooling air duct structure according to claim 2, wherein: the annular pipe (33) is sleeved outside the blower (1), the annular pipe (33) is communicated with the spherical shells (5), and the annular pipe (33) is fixedly connected with the fixing plate (10).

4. The air suspension blower cooling air duct structure according to claim 1, wherein: a second spring (8) is fixedly connected between one side of the piston rod (12) and the end wall of the heat absorbing shell (2).

5. The air suspension blower cooling air duct structure according to claim 1, wherein: the elastic structure (6) comprises a hinging block (64), the hinging block (64) is fixedly connected to the rod part of the piston rod (12), the hinging block (64) is hinged to two telescopic rods (61) through two pin shafts respectively, one end, far away from the hinging block (64), of each telescopic rod (61) is hinged to a connecting block (63) through a pin shaft, and the connecting block (63) is fixedly connected to the air blower (1).

6. The air suspension blower cooling air duct structure according to claim 5, wherein: the two ends of the telescopic rod (61) are fixedly connected with the two ends of the first spring (62) respectively, the switch (14) is installed on the blower (1) through the bracket, and the switch (14) corresponds to the cylindrical protruding part of the hinge block (64).