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CN-122014685-A - Oilless energy-saving air suspension blower

CN122014685ACN 122014685 ACN122014685 ACN 122014685ACN-122014685-A

Abstract

The invention relates to the technical field of air suspension blowers, in particular to an oilless energy-saving air suspension blower which comprises a supporting device, wherein an aligning device is symmetrically and fixedly arranged in the supporting device, a synchronous component is symmetrically and fixedly arranged in the supporting device, the synchronous component is positioned at the inner side of the aligning device, the supporting device comprises an air suspension blower, an aligning clamping frame, a guide transverse plate, a hydraulic cylinder, a transmission rack, a transmission gear, a supporting base, an inner backing plate, an aligning magnetic ring, a guide rod, a limiting backing plate and a main shaft, the main shaft is arranged in the air suspension blower, the limiting backing plate is fixedly arranged at two ends of the main shaft, the guide rod is fixedly arranged at the side end of the limiting backing plate, which is far away from the air suspension blower, the guide rod is distributed in an annular shape, and the inner backing plate is sleeved on the outer ring of the guide rod in a sliding manner. Through the setting of strutting arrangement, counterpoint device and synchronization part, realized that the air suspension air-blower carries out auxiliary stay and the energy-conserving integration of oilless purpose.

Inventors

  • FAN SHENGPING
  • GAO XUEYUN

Assignees

  • 璞瑞斯科技(湖北)股份有限公司

Dates

Publication Date
20260512
Application Date
20260331

Claims (9)

  1. 1. The oil-free energy-saving air suspension blower comprises a supporting device (1), wherein an aligning device (2) is fixedly and symmetrically arranged in the supporting device (1), a synchronizing component (3) is fixedly and symmetrically arranged in the supporting device (1), the synchronizing component (3) is positioned at the inner side of the aligning device (2), the oil-free energy-saving air suspension blower is characterized in that the supporting device (1) comprises an air suspension blower (4), an aligning clamping frame (5), a guide transverse plate (6), a hydraulic cylinder (7), a transmission rack (8), a transmission gear (9), a supporting base (10), an inner base plate (11), an aligning magnetic ring (12), a guide rod (13), a limiting base plate (14) and a main shaft (15), the main shaft (15) is arranged in the air suspension blower (4), the limiting base plate (14) is fixedly arranged at two ends of the main shaft (15), the guide rod (13) is fixedly arranged at the side end of the limiting base plate (14) away from the air suspension blower (4), the guide rod (13) is distributed in a ring shape, the inner base plate (11) is sleeved on the guide rod (13) in a sliding mode, the outer ring (12) is fixedly arranged at the top end of the air suspension blower (4), the guide transverse plate (6) is fixedly arranged at two ends of the inside of the support base (10), the transmission rack (8) is slidably inserted into the guide transverse plate (6), the alignment clamping frame (5) is fixedly arranged at one end of the transmission rack (8), the transmission gear (9) is rotatably arranged at the center of the bottom end of the support base (10), the hydraulic cylinder (7) is fixedly arranged at the bottom end of the support base (10), and the hydraulic cylinder (7) is positioned at the side end of the transmission gear (9).
  2. 2. The oilless energy-saving air suspension blower according to claim 1, wherein the alignment device (2) comprises a positioning side plate (16), a semicircular magnetic ring (17), an L-shaped guide rod (18), a contact convex plate (19), a displacement bracket (20) and a support underframe (21), the displacement bracket (20) is symmetrically and slidably inserted at the top end of the support underframe (21), the contact convex plate (19) and the L-shaped guide rod (18) are fixedly arranged at the side end of the displacement bracket (20), the L-shaped guide rod (18) is positioned above the contact convex plate (19), the positioning side plate (16) is fixedly arranged at the top end of the displacement bracket (20), and the semicircular magnetic ring (17) is fixedly arranged inside the positioning side plate (16).
  3. 3. An oil-free energy-saving air suspension blower according to claim 2, characterized in that the synchronizing component (3) comprises a contact device (22), a receiving device (23) and a positioning device (24), wherein the contact device (22) is fixedly arranged at two sides of the positioning device (24), and the receiving device (23) is in sliding connection with the inside of the positioning device (24).
  4. 4. An oil-free energy-saving air suspension blower according to claim 3, wherein the contact device (22) comprises an extrusion convex rod (25), a magnetic attraction piece (26), a first piston rod (27), an L-shaped air cylinder (28), a second piston rod (29), a contact disc (30) and an extension support plate (31), the L-shaped air cylinder (28) is fixedly arranged in the extension support plate (31), the second piston rod (29) is slidably inserted into the inner bottom end of the L-shaped air cylinder (28), the contact disc (30) is fixedly arranged at the bottom end of the second piston rod (29), the first piston rod (27) is slidably inserted into the inner top end of the L-shaped air cylinder (28), the extrusion convex rod (25) is fixedly arranged at one end, deviating from the L-shaped air cylinder (28), of the first piston rod (27), and the magnetic attraction piece (26) is fixedly arranged at the top end, close to the first piston rod (27), of the extrusion convex rod (25).
  5. 5. The oil-free energy-saving air suspension blower according to claim 4, wherein the receiving device (23) comprises a positioning cavity (32), a first spring (33), a guide clamping frame (34), a positioning rod (35), a sliding support (36) and a U-shaped support (37), the positioning cavity (32) is fixedly arranged at two inner ends of the sliding support (36), the first spring (33) is fixedly arranged in the positioning cavity (32), the positioning rod (35) penetrates through the sliding support (36) and the positioning cavity (32) in a sliding manner to be connected with the first spring (33), the guide clamping frame (34) is symmetrically and fixedly arranged at two end bottoms of the sliding support (36), and the U-shaped support (37) is fixedly arranged at the top end of the sliding support (36).
  6. 6. The oil-free energy-saving air suspension blower according to claim 5, wherein the positioning device (24) comprises a positioning hole (38), an iron sheet (39), a second spring (40), an extension underframe (41), a U-shaped base (42) and a vertical groove (43), the second spring (40) is fixedly arranged at the bottom end of the U-shaped base (42), the extension underframe (41) is fixedly arranged at the bottoms of the two ends of the U-shaped base (42), the positioning hole (38) is symmetrically formed at the tops of the two ends of the U-shaped base (42), the vertical groove (43) is positioned at the side end of the positioning hole (38), and the iron sheet (39) is fixedly arranged at the tops of the two ends of the U-shaped base (42).
  7. 7. The oil-free energy-saving air suspension blower according to claim 6, wherein the supporting underframe (21) is symmetrically and fixedly arranged in the supporting base (10), the supporting underframe (21) is positioned on the outer side of the guide transverse plate (6), the extending support plates (31) are fixedly arranged at two ends of the U-shaped base (42), the guide clamping frames (34) are slidably inserted in the vertical grooves (43), the extending underframe (41) is fixedly arranged in the supporting base (10), the extending underframe (41) is positioned between the supporting underframe (21) and the guide transverse plate (6), and the transmission gear (9) is meshed with the transmission rack (8).
  8. 8. The oil-free energy-saving air suspension blower according to claim 7, wherein the guide rod (13) is provided with a threaded hole at one end deviating from the limit pad (14), the inner ring of the inner pad (11) is provided with a sleeve hole, the sleeve hole is distributed in a ring shape, the top end of the contact convex plate (19) is arranged in an arc state, the L-shaped guide rod (18) is horizontally aligned with the positioning hole (38) above the side end of the U-shaped base (42), the contact convex plate (19) is vertically aligned with the contact disc (30), the extrusion convex rod (25) is horizontally aligned with the positioning hole (38) below the side end of the U-shaped base (42), the magnetic attraction piece (26) is horizontally aligned with the iron piece (39), the bottom end of the sliding support (36) is connected with the top end of the second spring (40), the U-shaped support (37) is vertically aligned with the main shaft (15), and the inner bottom end of the U-shaped support (37) is provided with an arc groove.
  9. 9. The oil-free energy-saving air suspension blower according to claim 8, wherein the L-shaped air cylinder (28) is arranged in a hollow state, a closed cavity is formed among the first piston rod (27), the L-shaped air cylinder (28) and the second piston rod (29), a clamping key is fixedly arranged at the bottom end of the displacement bracket (20), a clamping groove is formed in the top end of the support chassis (21), and a positioning hole is formed in the side end of the displacement bracket (20) close to the contact convex plate (19).

Description

Oilless energy-saving air suspension blower Technical Field The invention relates to the technical field of air suspension blowers, in particular to an oil-free energy-saving air suspension blower. Background The air suspension blower is a high-efficiency energy-saving device adopting the technical principle of an aviation turbine, and is characterized in that the air suspension bearing technology is utilized, a high-pressure air film is formed to support the rotor when the rotor rotates at a high speed, the non-contact and friction-free operation is realized, meanwhile, a high-speed permanent magnet synchronous motor and a high-efficiency three-way impeller are integrated, and the rotating speed is directly regulated by a frequency converter. Is mainly applied to the fields of municipal sewage treatment aeration, industrial wastewater treatment, cement building material pneumatic conveying, food fermentation, pharmacy and the like. At present, when the existing air suspension blower is operated, because the main shaft can be in contact with the bearing when the blower is not operated or has a low rotating speed, the bearing can be worn in long-term use, meanwhile, the main shaft can be rubbed with the main shaft during maintenance, so that the existing air suspension blower cannot perform the functions of auxiliary support and oil-free energy-saving integration, and therefore, equipment is needed to improve the existing air suspension blower. Disclosure of Invention Aiming at the problems in the prior art, the invention provides an oil-free energy-saving air suspension blower. The oil-free energy-saving air suspension blower comprises a supporting device, wherein an aligning device is symmetrically and fixedly arranged in the supporting device, a synchronizing component is symmetrically and fixedly arranged in the supporting device, the synchronizing component is positioned on the inner side of the aligning device, the supporting device comprises an air suspension blower, an aligning clamping frame, a guide transverse plate, a hydraulic cylinder, a transmission rack, a transmission gear, a supporting base, an inner backing plate, an aligning magnetic ring, a guide rod, a limiting backing plate and a main shaft, the main shaft is arranged in the air suspension blower, the limiting backing plate is fixedly arranged at two ends of the main shaft, the guide rod is fixedly arranged at the side end of the limiting backing plate, which is away from the air suspension blower, the guide rod is in annular distribution, the inner backing plate is sleeved on the outer ring of the guide rod in a sliding manner, the aligning magnetic ring is fixedly arranged on the outer ring of the inner backing plate, the air suspension blower is fixedly arranged at the top end of the supporting base, the guide transverse plate is fixedly arranged at two ends of the inner side of the supporting base, the transmission rack is in a sliding manner and is fixedly arranged at one end of the transmission transverse plate, the transmission rack is fixedly arranged at the bottom end of the hydraulic cylinder, and the transmission end of the transmission end is fixedly arranged at the bottom end of the supporting base. Specifically, the alignment device comprises a positioning side plate, a semicircular magnetic ring, an L-shaped guide rod, a contact convex plate, a displacement bracket and a supporting underframe, wherein the displacement bracket is symmetrically and slidably inserted at the top end of the supporting underframe, the contact convex plate and the L-shaped guide rod are fixedly arranged at the side end of the displacement bracket, the L-shaped guide rod is positioned above the contact convex plate, the positioning side plate is fixedly arranged at the top end of the displacement bracket, and the semicircular magnetic ring is fixedly arranged in the positioning side plate. Specifically, the synchronous component comprises a contact device, a receiving device and a positioning device, wherein the contact device is fixedly arranged on two sides of the positioning device, and the receiving device is in sliding connection with the inside of the positioning device. Specifically, the contact device includes extrusion protruding pole, magnetism piece, first piston rod, L type inflator, second piston rod, contact disk and extends the extension board, L type inflator fixed mounting is in the inside that extends the extension board, the inside bottom at L type inflator is pegged graft in the second piston rod slip, contact disk fixed mounting is in the bottom of second piston rod, first piston rod slip is pegged graft inside the top of L type inflator, extrusion protruding pole fixed mounting deviates from the one end of L type inflator at first piston rod, magnetism piece fixed mounting is inhaled in extrusion protruding pole and is close to the top of first piston rod. Specifically, receiving arrangement includes location cavity, first s