DE202022102753U1 - Axial fan with changeable air direction - Google Patents

Abstract

Variable air direction axial flow fan comprising a fan casing,- the fan casing being provided with a first rotating shaft connected to a bearing, and a first impeller being fixedly connected to the rear end of the first rotating shaft;- on the outside of the A motor is mounted on the fan housing and has a second impeller which is fixed to the output shaft of the motor and connected to the first impeller;- the first shaft has a bracket fixed at the front end around which are arranged evenly spaced fan blades;- a second shaft attached to the lower end of each fan blade, the second shaft being pivotally connected to the bracket, and a first bevel gear being attached to the end of the second shaft inboard of the bracket;- a third shaft rotatably connected to the front center of the bracket is, and a second bevel gear fixed at the end of the third W elle is mounted within the bracket in meshing engagement with the first bevel gear, at the end of the third shaft remote from the second bevel gear being mounted limiting detents slidable along the axis of said third shaft;- in the bracket a number of is provided with limiter holes, and the limiter locks are equipped with a limiter lever that fits into the limiter holes.

Description

In the technology area

The utility model relates to the technical field of axial fans, in particular to an axial fan with variable airflow direction.

Technical background

Axial fans are used in a variety of applications where the air flows in the same direction as the axis of the fan blades, e.g. B. in electric fans and fans for air conditioning systems. They are called "axial fans" because the volume of air flows parallel to the axis of the fan and the axial fan sets the position and moves the air. The axial fan essentially consists of a fan impeller and a housing, the structure of which is simple but which places very high demands on the data.

Conventional axial flow fans currently have fan blades that cannot be tilted at any other angle, so the airflow is only from one fixed side to the other. In some special cases where the axial fan is fixed, there may be a need for supply and exhaust air, so two axial fans need to be installed to meet the demand, resulting in higher cost and space.

To solve these problems, an innovative design based on the original axial fan was developed.

Content of the utility model

The utility model aims to provide an axial flow fan with variable air direction to solve the problem presented in the above background technology, namely the current conventional axial flow fan with fixed fan blade inclination angle, which allows the airflow to flow only from one fixed side to the other, and the need for supply and exhaust air, which may be required in some special occasions where the axial fan is fixed, so that two axial fans can be installed to meet customers' needs. This leads to higher costs and requires more space.

The utility model aims to provide a variable air direction axial flow fan including a fan casing. This fan case is provided with a first rotating shaft connected to a bearing, and a first impeller is fixedly connected to the rear end of the first rotating shaft. A motor is mounted on the outside of the fan housing and has a second impeller fixed to the output shaft of the motor and connected to the first impeller; The first shaft has a bracket attached to the front end around which evenly spaced fan blades are disposed, and a second shaft is attached to the lower end of each fan blade. The second shaft is pivotally connected to the bracket. A first bevel gear is mounted on the inboard end of the second shaft. A third shaft is rotatably connected to the front center of the bracket and a second bevel gear is fixedly mounted to the end of the third shaft within the bracket meshing with the first bevel gear. At the end of the third shaft remote from the second bevel gear are mounted limit locks which are slidable along the axis of said third shaft. A number of limit holes are provided in the bracket, and the limit lock are equipped with a limit lever that fits into the limit holes.

Furthermore, it results in its limit locking element comprising a deployment rod. A central part of the third rotating shaft remote from the end of the second bevel gear is provided with an opening into which the insert rod can be inserted. A pivot block is fixed to the front end of the deployment rod, and a guide rod is fixedly attached to the center of the deployment rod with its axis perpendicular to the axis of the deployment rod. There is a slot on the third shaft for the guide rod to protrude through the slot into the bracket. At the front end of the bracket there is a guiding slot for the guiding rod, in which two limiting holes are provided. A limit rod is attached to the guide rod and fits into said limit holes.

It also results in a magnetic suction block being attached to the bottom of the hole. The insert rod is made of iron, its lower end and the magnetic sucker are mutually absorbed.

Furthermore, it results in that both the first drive wheel and the second drive wheel are both belt wheels and both are equipped with a drive belt.

Furthermore, it results in that both the first drive wheel and the second drive wheel are both sprockets and both are equipped with a drive chain.

Furthermore, it results in the fan housing having a detachably mounted cover both at the front and at the rear, the cover being provided with a block on the side facing the fan housing. The front and back ends of the fan housing have slots that fit into these blocks.

It further states that its second rotary shaft includes a mounting block fixed at one end near the fan blade and a mounting plate attached to the fan blade and fixed at one end near the bracket. A mounting slot is provided inside the mounting block for the mounting plate to fit, the mounting plate is in the mounting slot, and there are slots on the side of the mounting block. A telescoping rod is mounted inside the mounting slot, the outer end of which is attached to an offset plate which is interlocked with the mounting plate. The outside of the telescoping pole has a spring with both ends locked to the inside wall of the mounting slot and the offset plate.

Furthermore, it results in that the front end of the offset plate is equipped with a pressure plate.

Furthermore, it means that a bracket is attached inside the fan housing and the outer ring of the bearing is fixed to this bracket.

Furthermore, it results in the fan housing being cylindrical.

Compared to the prior art, the utility model has an advantageous effect that the second bevel gear drives a series of first bevel gears to rotate, thereby causing the fan blade to rotate. At the same time, the rotation angle of the fan blade is limited by the interaction of the limit holes on the bracket and the limit lever on the limit lock. When changing the airflow direction, the fan blades are rotated exactly ninety degrees. The clever design allows the fan blades to rotate at an angle so that the axial fan can both draw in and blow out air without having to adjust the direction of the fan case, greatly increasing the practicality of the device.

notes of the appendix

• 1 stellt eine schematische Darstellung der Gesamtstruktur des Gebrauchsmusters dar.
• 2 stellt eine vergrößerte schematische Ansicht der Struktur des Gebrauchsmusters bei A in 1 dar.
• 3 stellt eine Halbschnittansicht des Gebrauchsmusters in der Rechtsansicht dar;
• 4 stellt eine vergrößerte schematische Ansicht der Struktur bei B in 3 des vorliegenden Gebrauchsmusters dar.
• 5 stellt schematisch den dreidimensionalen Aufbau der ersten rotierenden Welle, des ersten Antriebsrades, der Halterung und des Montageblocks im Zusammenwirken im Gebrauchsmuster dar;
• 6 stellt eine Querschnittsansicht des Gebrauchsmusters dar, bei der der Halterung mit dem Begrenzungssperrelement zusammenwirkt;
• 7 stellt eine schematische Darstellung der dreidimensionalen Struktur des Gebrauchsmusters dar, wobei die zweite rotierende Welle, das erste Kegelrad, die dritte rotierende Welle, das zweite Kegelrad und der Montageblock zusammenwirken;
• 8 stellt schematisch den Gesamtaufbau der Begrenzungssperre im Gebrauchsmuster dar
• 9 stellt eine schematische Darstellung des Aufbaus des Lüfterflügels, der Montageplatte, der Teleskopstange, der Versatzplatte, der Feder und der Druckplatte im Zusammenwirken im Gebrauchsmuster dar.

In order to better clarify the technical solutions in the specific embodiments or prior art of the utility model, a brief description of the attached figures is given below, which must be used in the description of the specific embodiments or prior art. It will be clear that the attached figures in the following description represent some embodiments of the utility model. The other accompanying figures can be extracted by a person skilled in the art without any creative work.

• 1 represents a schematic representation of the overall structure of the utility model.
• 2 Figure 12 shows an enlarged schematic view of the structure of the utility model at A in 1 represent.
• 3 Fig. 12 is a right-side half-sectional view of the utility model;
• 4 Figure 1 shows an enlarged schematic view of the structure at B in 3 of the present utility model.
• 5 Fig. 12 schematically shows the three-dimensional structure of the first rotating shaft, the first drive wheel, the bracket and the mounting block in cooperation in the utility model;
• 6 Fig. 12 shows a cross-sectional view of the utility model, in which the holder cooperates with the limit locking element;
• 7 Fig. 12 is a schematic representation of the three-dimensional structure of the utility model in which the second rotating shaft, the first bevel gear, the third rotating shaft, the second bevel gear and the mounting block cooperate;
• 8th shows schematically the overall structure of the delimitation lock in the utility model
• 9 shows a schematic representation of the structure of the fan blade, the mounting plate, the telescopic rod, the offset plate, the spring and the pressure plate in interaction in the utility model.

1

Ventilatorgehäuse,

211

erste Drehwelle,

212

erstes Antriebsrad,

213

Motor,

214

zweites Antriebsrad,

215

Antriebsriemen,

216

Halterung,

217

Lüfterflügel,

311

zweite Drehwelle,

312

erstes Kegelrad,

313

dritte Drehwelle,

314

zweites Kegelrad,

315

Einsatzstange,

316

Buchse,

317

Drehblock,

318

Führungsstange,

319

Schiebeschlitz,

320

Führungsbegrenzungsschlitz,

321

Begrenzungsstange,

322

Begrenzungsloch,

323

Magnetsaugblock,

411

Montageblock,

412

Montageplatte,

413

Montageschlitz,

414

Steckschlitz,

415

Teleskopstange,

416

Versatzplatte,

417

Feder,

418

Druckplatte,

511

Abdeckung,

512

Block

513

Schlitz.

Information about the attached figures:

1

fan housing,

211

first rotary shaft,

212

first drive wheel,

213

Engine,

214

second drive wheel,

215

drive belt,

216

Bracket,

217

fan blade,

311

second rotary shaft,

312

first bevel gear,

313

third rotary shaft,

314

second bevel gear,

315

stake rod,

316

Rifle,

317

rotary block,

318

guide rod,

319

sliding slot,

320

guide limit slot,

321

perimeter bar,

322

boundary hole,

323

magnetic suction block,

411

mounting block,

412

mounting plate,

413

mounting slot,

414

slot,

415

telescopic pole,

416

offset plate,

417

Feather,

418

Printing plate,

511

Cover,

512

block

513

Slot.

Concrete implementation

In the following, the technical solutions of the utility model related to the embodiments will be described clearly and completely. Obviously, the described embodiments are part of the embodiments of the utility model and not all of the embodiments. Based on the embodiments in the utility model, all other embodiments achieved by a non-creative person skilled in the art are included in the scope of protection of the utility model.

In the context of the description of the utility model, it should be noted that the terms "middle", "longitudinal", "transverse", "length", "width", "thickness", "top", "bottom", "front", " rear”, “left”, “right”, “vertical”, “horizontal”, “top”, “bottom”, “inside”, “outside”, “clockwise”, “counterclockwise”, etc. Orientation or Indicate positional relationships based on those shown in the attached figures. The orientational or positional relationships are intended solely for convenience and simplicity in describing the utility model and are not intended to imply that the device or element referred to must be of a particular orientation or be constructed and function in a particular orientation, and therefore they are cannot be interpreted as a limitation of the utility model.

Also, the terms "first" and "second" are used for descriptive purposes only and do not imply relative importance or imply the number of technical features stated. Accordingly, the features referred to as “first” and “second” can explicitly or implicitly include one or more of the features described. In the context of the description of the utility model, the term "plurality" refers to two or more, unless expressly and specifically provided otherwise. In addition, the terms "assembled", "connected" and "connected" are to be understood in a broad sense. For example, it can be a fixed, a detachable or an integral connection, a mechanical or an electrical connection, a direct or an indirect connection via an intermediate medium and a connection within two components. The person skilled in the art can understand the specific meaning of the above terms in connection with the utility model in the individual case.

Embodiment 1

As in the 1 until 9 1, this variable-direction axial flow fan comprises a cylindrical fan casing 1, a first rotating shaft 211 rotatably supported by a bearing inside the fan casing 1, a support frame fixed inside the fan casing, and an outer ring of the bearing fixed to the support frame. A first impeller 212 is fixed to the rear end of the first rotary shaft 211, a motor 213 is fixed to the outside of the fan casing 1, a second impeller 214 is fixed to the output shaft of the motor 213, and the second impeller 214 is connected through a gear with connected to the first drive wheel 212; At the front end of the first rotary shaft 211 is a bracket 216 surrounded by evenly spaced fan blades 217 each supporting at the lower end a second rotary shaft 311 rotatably connected to the bracket 216 . A first bevel gear 312 is fixed to one end of the second rotary shaft 311 located inside the bracket 216, and a third rotary shaft 313 is rotatable at the front center of the bracket 216 is attached, and a second bevel gear 314 meshing with the first bevel gear 312 is fixedly mounted on one end of the third rotary shaft 313 located inside the bracket 216. As shown in FIG. The second bevel gear 314 is rotated by the third rotating shaft 313, and then the first bevel gear 312 is rotated by the second bevel gear 314, which in turn rotates the fan blade 217, so that the fan blade 217 rotates exactly 90°. By changing the angle of the fan blades 217, the direction of airflow can be changed, so that the axial fan is able to both suck in and expel air without having to adjust the direction of the fan case 1, which greatly improves the practicality of the device .

As in 3 until 4 and 6 until 8th As shown, the third rotating shaft 313 has a limit lock member at an end opposite to the second bevel gear 314, the limit lock member being slidable along the axis of the third rotating shaft 313, the limit lock member including an insert rod 315, and at the center of the end opposite to the second bevel gear 314 of the third rotary shaft 313 is provided with a bushing 316 which interacts with the insert rod 315 . A rotary block 317 is fixed to the front end of the insert rod 315, a guide rod 318 is attached to the middle of the insert rod 315, the axis of the guide rod 318 is perpendicular to the axis of the insert rod 315, the third rotary shaft 313 is opened with a sliding slot 319 leading to the Guide bar 318 mates, guide bar 318 passes through slide slot 319 and extends into bracket 216, the front end of bracket 216 is opened with a guide limit slot 320 that mates with guide bar 318. At the forward end of bracket 216 is a guide slot 320 into which guide rod 318 fits. The guide slot 320 includes two limit holes 322 and the guide bar 318 is provided with a limit bar 321 that fits into the limit holes 322 . When the fan blades 217 need to be rotated to change the direction of air flow, the guide rod 318 is moved along the slide slot 319 by pulling the rod 315 outward, pulling out the limit rod 321 from one of the limit holes 322, and then the third rotary shaft 313 is rotated. The third rotary shaft 313 is fixed by sliding the rod 315 along the sliding slot 319 again and inserting it into the other restricting hole 322; The guide bar 318 is rotated from one side of the guide slot 320 to the other side, rotating the fan blade 217 exactly 90°. To avoid automatic deflection of the fan blades 217 due to the air flow when the fan is in operation, a magnetic suction block 323 is attached to the lower end of the sleeve 316. The material of the insert rod 315 is iron, and the lower end of the insert rod 315 and the magnetic suction block 323 absorb each other, when the limit rod 321 is inserted into the limit hole 322, the insert rod 315 is accurately sucked into the magnetic suction block 323 at this time , effectively preventing the deployment rod 315 from automatically expanding forward and causing the fan blades 217 to deflect. This prevents 315 from automatically extending forward and deflecting fan blade 217.

In this embodiment, the first drive wheel 212 and the second drive wheel 214 are pulleys. The first drive wheel 212 and the second drive wheel 214 are provided with a drive belt 215, the motor 213 drives the rotation of the second drive wheel 214, and then the first drive wheel 212 rotates through the drive belt 215. In addition, the first drive wheel 212 and the second drive wheel 214 can also be designed as a chain wheel. The first drive wheel 212 and the second rotary wheel are equipped with a drive chain. If necessary, specific adjustments can be made to the respective situation.

A removable cover 511 is provided on the front and rear of the fan case 1. 511 is provided with a block 512 on the side of the cover facing the fan case 1 so that the cover 511 can be removed more easily. Slots 513 into which the block 512 fits are provided at the front and rear ends of the fan housing 1 . The block 512 is rotated into the opening of the slot 513 by rotating the cover 511 counterclockwise. At this point the cover 511 can be removed from the fan housing 1. To install, block 512 is inserted into the opening of slot 513 and rotated clockwise until it reaches the innermost end of slot 513. This fixes the cover 511 to the fan case 1 and facilitates loading and unloading of the cover 511. The safety device 511 can improve the safety of the axial fan. After removing the cover 511, the angle of the fan blades 217 can be easily adjusted, and the fan blades 217 can be easily disassembled. The whole process is simple and convenient.

As in the 5 , 7 and 9 1, a mounting block 411 is fixed to an end of the second rotary shaft 311 near the fan blade 217 to allow disassembly of the fan blade 217, and a mounting plate 412 is fixed to an end of the fan blade 217 near the Bracket 216 attached. When fan blade 217 is removed and installed, mounting plate 412 is inserted through mating slot 414 into mounting slot 413; Mounted inside the mounting slot 413 is a telescopic rod 415, the outer end of which is fixed to an offset plate 416, which is interlocked with the mounting plate 412, the outer side of the telescopic rod 415 being provided with a spring 417, the two ends of which are connected to the inner wall of the mounting slot 413 and offset plate 416 are locked; the front end of the offset plate 416 is provided with a pressing plate 418 which is moved toward the bottom of the mounting slot 413 while being pressed on the offset plate 416 . The front end of the displacement plate 416 is provided with a pressing plate 418 which is moved toward the bottom of the mounting slot 413 by pressing down on the plate 418 . At this time, the telescopic rod 415 is shortened and the spring 417 is compressed, so that the mounting plate 412 can be taken out from the insertion slot 414, making it easier to replace the fan blade 217 and clean the dust on the surface of the fan blade 217. When the fan blade 217 is mounted on the equipment, the offset plate 416 is pressed onto a low pressure mounting plate 412 by the force of the spring 417, thereby preventing the fan blade 217 from detaching from the mounting block 411 during use.

Operating principle: When using this axial flow fan, start the motor 213, so the output shaft of the motor 213 drives the second impeller 214 to rotate, and the second impeller 214 drives the first impeller 212 to rotate, so that the first rotary shaft 211 rotates, causing the fan blades 217 to rotate and the air flows from one side of the fan case 1 to the other.

When it is necessary to adjust the airflow direction of the axial fan, first, the cover 511 is rotated counterclockwise so that the block 512 is rotated into the opening of the slot 513. The cover 511 can then be removed from the fan housing 1 and the rotary block 317 can be pulled forwards so that the insert 315 pushes the guide rod 318 in front of the sliding slot 319. At this time, the lower end of the insert rod 315 is detached from the magnetic sucker 323, the limit rod 321 is detached from the limit hole 322, and the rotary block 317 is rotated so that the guide rod 318 drives the third rotary shaft 313 to rotate, so that the second bevel gear 314 rotates and drives the first bevel gear 312 to rotate, so that the second rotating shaft 311 rotates and drives the fan blades 217 to rotate until the guide rod 318 rotates to the other side of the guide slot 320 on the other side. At this point the fan blade 217 rotates exactly ninety degrees and pushes on the deployment rod 315 so that the guide rod 318 moves to the rear of the sliding slot 319 . Now, the lower end of the insertion rod 315 and the magnetic sucker 323 is picked up again, the restriction rod 321 is inserted into another restriction hole 322, so that the change of the blowing direction is completed.

When the fan blade 217 needs to be removed, the spring 417 is compressed by depressing the pressure plate 418, causing the offset plate 416 to move toward the bottom of the mounting slot 413. The mounting plate 412 can then be removed from the slot 414 so that the fan blade 217 can be removed from the mounting block 411. At this time, the fan blades 217 can be dedusted. If the fan blade 217 is damaged, it can be replaced with a new fan blade 217. The mounting plate 412 is reinserted from the mating slot 414 into the mounting slot 413, the pressure plate 418 is released, the spring 417 springs back and presses against the offset plate 416, so that the mounting plate 412 snaps into place and the fan blade 217 is secured to the mounting block 411. Unless described in detail in these instructions, the prior art is known to all those skilled in the art.

Finally, it should be noted that the above embodiments only serve to illustrate the technical solutions of the utility model and not to limit them; Although the utility model is described in detail based on the foregoing embodiments, those skilled in the art can still change the technical solutions described in the foregoing embodiments or replace some or all of the technical features with equivalent ones; These changes or replacements do not leave the core of the corresponding technical solutions outside the scope of the technical solutions of the various embodiments of the utility model.

Claims (10)

Variable air direction axial flow fan comprising a fan casing, wherein - the fan casing is provided with a first rotating shaft connected to a bearing, and a first impeller is fixedly connected to the rear end of the first rotating shaft; - A motor with a second drive wheel is attached to the outside of the fan housing is fixed to the output shaft of the engine and connected to the first drive wheel; - the first shaft has a bracket fixed at the front end around which are arranged evenly spaced fan blades; - a second shaft is attached to the lower end of each fan blade, the second shaft being pivotally connected to the bracket, and a first bevel gear being attached to the end of the second shaft located inside the bracket; - a third shaft is rotatably connected to the front center of the bracket, and a second bevel gear is fixedly mounted at the end of the third shaft within the bracket, meshing with the first bevel gear, the third bevel gear being at the end remote from the second bevel gear shaft limiting locks are mounted which are slidable along the axis of said third shaft; - a number of limit holes are provided in the bracket, and the limit locks are equipped with a limit lever that fits into the limit holes. The axial fan with changeable air direction claim 1 , characterized in that - a limit locking element comprises a deployment rod; - a middle part of the third rotary shaft, remote from the end of the second bevel gear, is provided with an opening into which the insert rod can be inserted; - a pivot block is fixed to the front end of the deployment rod, a guide rod being fixedly attached to the center of the deployment rod, the axis of which is perpendicular to the axis of the deployment rod; - on the third shaft there is a slot for the guide rod, which protrudes through the slot into the bracket; - A guide slot for the guide rod is available at the front end of the bracket, in which two limiting holes are provided; and - a limiter rod is attached to the guide rod and engages in said limiter holes. The axial fan with changeable air direction claim 2 , characterized in that - a magnetic suction block is fixed at the lower end of the hole; and - the deployment rod is made of iron, the lower end of which and the magnetic sucker are mutually absorbed. The axial fan with changeable air direction according to claim 1 , characterized in that both the first drive wheel and the second drive wheel are both belt wheels and both are equipped with a drive belt. The axial fan with changeable air direction according to claim 1 , characterized in that both the first drive wheel and the second drive wheel are both sprockets and both are equipped with a drive chain. The axial fan with changeable air direction according to claim 1 , characterized in that - the fan housing has a detachably mounted cover both at the front and at the rear, the cover being provided with a block on the side facing the fan housing; and - the front and rear ends of the fan housing have slots that fit into these blocks. The axial fan with changeable air direction according to claim 1 , characterized in that - its second rotating shaft includes a mounting block fixed at one end near the fan blade and that a mounting plate is attached to the fan blade and fixed at one end near the bracket; - a mounting slot is provided inside the mounting block for the mounting plate to fit, the mounting plate is in the mounting slot, and slots are made on the side of the mounting block; - a telescopic rod is mounted inside the mounting slot, the outer end of which is fixed to an offset plate which is locked to the mounting plate; and - the outside of the telescopic rod has a spring both ends of which are interlocked with the inside wall of the mounting slot and the offset plate. The axial fan with changeable air direction according to claim 1 , characterized in that the front end of the displacement plate is equipped with a pressure plate. The axial fan with changeable air direction according to claim 1 , characterized in that a bracket is fixed inside the fan housing and the outer ring of the bearing is fixed to this bracket. The axial fan with changeable air direction according to claim 1 , characterized in that the fan housing is cylindrical.

Images