JP2014214624A - Safety device of axial flow fan - Google Patents

Abstract

PROBLEM TO BE SOLVED: To prevent the degradation of reliability even if a switch mechanism for stopping rotations of a motor when a fan guard comes off is downsized.SOLUTION: A safety device of an axial flow fan 10 is equipped with a motor 14 rotated by electricity supplied by a power source 12, a switch 16 for turning on/off the electricity supplied from the power source 12 to the motor 14, a fan 18 rotated by the motor 14, a fan guard 20 for covering the fan 18 from a front side, and a rear guard 22 for covering the fan from a rear side. The safety device of the axial flow fan 10 is also equipped with a magnet 24 provided on the fan guard 20; a magnetic sensor 26 which is provided near the magnet 24, detects whether the magnet 24 exists near the magnetic sensor 26 or not, and outputs a signal without a magnet when the magnet 24 does not exist near the magnetic sensor 26; and a control device 28 which outputs a signal for turning off the switch 16 on the basis of the signal without the magnet outputted from the magnetic sensor 26, to the switch 16.

Description

  The present invention relates to a safety device for an axial flow fan, particularly a circulator in which the fan rotates at a high speed.

  The circulator is a blower that forcibly sends a wind in a predetermined direction by rotating a fan (blade) at a high speed. Since the fan is rotating at high speed, there is a risk of injury if a human finger touches the fan. For this reason, a fan guard is attached to the front side of the circulator so as to cover the fan, so that human fingers and the like do not accidentally touch the fan rotating at high speed.

  The fan guard is attached to the front side of the circulator for this purpose, so from the standpoint of safety only, the structure can not be removed from the main body at all, or even if it can be removed, it can only be removed using a tool such as a screwdriver. It is considered desirable to have a structure.

  However, in the circulating circulator, air is sucked in from the rear guard (intake side), and the sucked air is pushed forward by the fan and sent to the front through the fan guard (exhaust side). The dust contained in the air is continuously adsorbed on the surfaces of the rear guard, the fan and the fan guard, and a considerable amount of dust accumulates on the surfaces of the rear guard, the fan and the fan guard after a certain period of time.

  When a considerable amount of dust accumulates on the surface of the rear guard, the fan, and the fan guard, the air blowing capability is reduced or noise is generated. Therefore, in order to solve these problems, the fan guard can be removed from the main body so that the accumulated dust can be removed by cleaning the surfaces of the rear guard, the fan and the fan guard.

  However, if the fan guard can be easily removed from the main body (rear guard), there is a safety problem. For example, a slide lock mechanism is provided on the rear guard side and the lever is slid to the right. If the lever is slid to the left while it is locked and the fan guard cannot be removed, the fan guard is unlocked and the fan guard can be removed from the main body.

  However, even if such a mechanism is provided in the fan guard, for example, if the circulator is accidentally dropped on the floor, or if you forget to lock the slide lock mechanism, the fan will rotate at high speed. The fan guard may come off and people may touch the fan that is rotating at high speed, causing injury.

JP 2000-356212 A

  In order to avoid such a possibility, it is necessary to employ a switch mechanism that automatically stops the rotation of the motor that rotates the fan when the fan guard is detached from the main body.

  However, the generally known mechanical switch mechanism is of a relatively large size, and if it is to be installed on the fan guard of an axial fan, a large installation space is required. There is a problem that some parts must be changed, and the design of the axial fan may be deteriorated.

  Also, if the mechanical switch mechanism is downsized, the mechanical strength will decrease, and the switch will break, making it easier to break, and some part of the mechanism will be damaged during use, and the rotation of the fan will be stopped when it is important. There is a problem that the reliability of the switch mechanism is lowered.

  The problem to be solved by the present invention is that if the existing mechanical switch mechanism is used as it is, the design of the axial fan is deteriorated, and if the existing mechanical switch mechanism is miniaturized and used, the switch mechanism It is a point that the reliability with respect to decreases.

  The present invention provides a magnet in a fan guard, a magnetic sensor (Hall element) for detecting the magnet is provided in a rear guard, and the magnetic sensor detects that the magnet has been separated from the magnetic sensor when the fan guard is removed. The most important feature is that the rotation of the fan is stopped upon detection.

  Since the axial fan safety device of the present invention does not reduce the reliability of the switch mechanism even when the switch mechanism is downsized, the axial fan can reliably stop the rotation of the fan when the fan guard is removed. Can be provided without deteriorating the design.

FIG. 1 is an explanatory view of a safety device for an axial fan according to the present invention. FIG. 2 is an explanatory view of an axial fan equipped with a safety device according to the present invention. FIG. 3 is an explanatory view of a fan guard of an axial fan equipped with the safety device according to the present invention. FIG. 4 is an explanatory view of the rear guard of the axial fan equipped with the safety device according to the present invention.

  Reducing the reliability of the switch mechanism while maintaining the design of the existing axial fan, with the aim of reliably stopping the fan rotation when the fan guard of the axial fan whose fan is rotating at high speed is removed Realized without.

  FIG. 1 is an explanatory diagram of an axial fan safety device according to the present invention, FIG. 2 is an explanatory diagram of an axial fan equipped with the safety device according to the present invention, and FIG. 3 is an axial flow equipped with the safety device according to the present invention. FIG. 4 is an explanatory view of a rear guard of an axial fan equipped with a safety device according to the present invention.

  In these drawings, reference numeral 10 denotes a circulator, and the circulator 10 includes a motor 14 that is rotated by electricity supplied from a power supply 12, a switch 16 that turns on and off electricity supplied from the power supply 12 to the motor 14, and a motor 14. The fan 18 is rotated, the fan guard 20 covers the fan 18 from the front, and the rear guard 22 covers the fan 18 from the rear.

  The rear guard 22 is provided with a slide lock mechanism (not shown) that removably couples the fan guard 20 to the rear guard 22, and this slide lock mechanism locks the fan guard 20 by sliding the lever to the right. If the lever is slid to the left in a state where the fan guard 20 cannot be removed, the fan guard 20 is unlocked and the fan guard 20 can be removed from the main body.

  A small magnet 24 is provided on the inner edge of the fan guard 20, and a magnetic sensor 26 that detects the presence or absence of the magnet 24 is provided on the front edge of the rear guard 22. The magnet 24 is provided at a position facing the magnetic sensor 26 in a state where the fan guard 20 is attached to a predetermined angular position (fixed position) of the rear guard 22. The magnetic sensor 26 includes a Hall element, and is configured to output a signal with a magnet when the magnet 24 is detected, and to output a signal without a magnet when the magnet 24 is not detected.

  The output end of the magnetic sensor 26 is electrically connected to the control device 28, and the output end of the control device 28 is electrically connected to the switch 16. The control device 28 outputs a signal for turning on the switch 16 when the signal output from the magnetic sensor 26 has a magnet, and turns off the switch 16 when the signal output from the magnetic sensor 26 does not have a magnet. Is configured to output a signal. The switch 16 is turned on when a signal for turning on the switch 16 is output from the control device 28, and is turned off when a signal for turning off the switch 16 is outputted from the control device 28. It is configured.

  Next, a description will be given of what state the rotating fan will be in depending on the attachment / detachment status of the fan guard.

  First, when the fan guard 20 is attached to the rear guard 22 at a predetermined angular position (fixed position), the magnetic sensor 26 detects the magnet 24 of the fan guard 20 and outputs a signal indicating the detection of the magnet 24 to the control device 28. To do. The control device 28 to which the signal for detecting the magnet 24 is output outputs a signal for turning on the switch 16 to the switch 16, the switch 16 is kept on, the motor 14 is kept rotating, and the fan 18 is turned on. Continue to rotate.

  Next, when the fan guard 20 is removed from the rear guard 22 or removed, the magnetic sensor 26 cannot detect the magnet 24 of the fan guard 20, and therefore outputs a signal not detecting the magnet 24 to the control device 28. . The control device 28 to which the signal not detecting the magnet 24 is output outputs a signal for turning off the switch 16 to the switch 16, the switch 16 is turned off, the motor 14 stops rotating, and the fan 18 also stops rotating.

  Thus, when the fan guard 20 is detached from the rear guard 22 due to an accidental accident, the fan 18 that has been rotating at high speed stops its rotation and is prevented from touching the fan 18 that rotates at high speed and being injured. It will be.

DESCRIPTION OF SYMBOLS 10 Circulator 12 Power supply 14 Motor 16 Switch 18 Fan 20 Fan guard 22 Rear guard 24 Magnet 26 Magnetic sensor 28 Control apparatus

Claims (6)

  A motor that is rotated by electricity supplied from a power source, a switch that turns on and off electricity supplied from the power source to the motor, a fan that is rotated by the motor, and a fan guard that covers the fan from the front, A safety device for an axial fan including a rear guard that covers the fan from the rear, the magnet provided on the fan guard, and a portion of the rear guard close to the magnet, the magnet being in the vicinity A magnetic sensor that outputs a no-magnet signal when the magnet is not nearby, and a signal that turns off the switch based on the no-magnet signal output from the magnetic sensor. A safety device for an axial fan comprising a control device for outputting to a switch.   The safety device for an axial fan according to claim 1, wherein the magnetic sensor is a Hall element.   The axial fan safety device according to claim 1 or 2, wherein the magnet is provided at an inner edge of the fan guard, and the magnetic sensor is provided at an edge of the front side of the rear guard.   The control device outputs a signal for turning on the switch to the switch based on a signal with a magnet output from the magnetic sensor, and based on a signal without a magnet output from the magnetic sensor. The axial flow fan safety device according to any one of claims 1 to 3, wherein a signal for turning off the switch is output to the switch.   The safety device for an axial fan according to any one of claims 1 to 4, wherein the axial fan includes a lock mechanism for detachably connecting the fan guard and the rear guard.   The safety device for an axial fan according to any one of claims 1 to 5, wherein the axial fan is a circulator.

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