KR100222207B1 - Structure for sensing the rotation number of a carbureter-type rotary heater - Google Patents

Abstract

The present invention relates to a rotation speed sensing structure of a vaporized rotary heater, in particular, a motor, a fan case installed below the motor, a fan installed inside the fan case to be rotated by the motor, and the fan case In the rotation speed sensing structure of the evaporative rotary heater configured to include a rotation speed sensor installed on the inner top to detect the rotation speed of the fan, the center of the fan to prevent the re-intake of air between the fan and the fan case The fan ribs are installed on the suction unit to prevent foreign matters such as dust from being caught in the hole formed between the light emitting element and the light receiving element of the rotation speed sensor, thereby improving the reliability of the rotation detection function. To a sensing structure.

Description

Rotation Speed Detection Structure of Evaporative Rotary Heater

The present invention relates to an evaporative rotary heater, and in particular, as the fan is rotated, the light cut formed on the fan blocks the light emitting element and the light receiving element formed on the rotational speed sensor, thereby detecting the light by the light receiving element. It is related with the rotation speed detection structure of a vaporization type rotary heater which detects the rotation speed of a fan.

In general, in the vaporized rotary heater, combustion air and fuel are respectively introduced into the vaporizer 7 and preheated, and then ignited and burned as shown in FIG. 1.

Here, the combustion air is sucked through the central portion of the fan case 2 provided below the motor 1, and the sucked air obtains a rotational force from the fan 3 rotated by the motor 1 and the hose ( 4) and the burner holder 6 is introduced into the vaporizer 7. At this time, the sucked air is laminar flow flow by the laminar flow converter 5 installed in the hose (4).

In addition, the fuel stored in the fuel tank 10 is filtered through the pump filter 11 and then introduced into the vaporizer 7 by the electronic pump 12. At this time, the fuel is transported through the oil pipe (13) connecting the electron pump 12 and the vaporizer (7).

As shown in FIG. 2, the rotation speed sensing structure of the vaporized rotary heater according to the related art includes a motor 1, a fan case 2 installed below the motor 1, and a fan case 2. A fan 3 installed therein and rotated by the motor 1, a rotation speed sensor 8 installed on an inner upper end of the fan case 2, and a plurality of lights installed on an upper surface of the fan 3; And a light cut 9.

Here, as shown in FIG. 3, the rotation speed sensor 8 has a groove 8d formed in a central portion thereof, and a light emitting element 8a and a light receiving element 8b are disposed on one side and the other side of the groove 8d, respectively. A hole 8c through which light passes is formed between the light emitting element 8a and the light receiving element 8b.

Operation of the rotation speed detection structure of the vaporized rotary heater according to the prior art is as follows.

First, when the fan 3 is rotated by the operation of the motor 1, outside air is sucked through the central portion of the fan case 2, and the sucked air is rotated by the fan 3 by the rotational force of the fan 3. It flows out into the vaporizer | carburetor 7 through the hose 4 installed in the case 2.

At this time, when the fan 3 is rotated, the light cut 9 intersects the hole 8c while passing through the groove 8d of the rotational speed sensor 8 to emit light emitted from the light emitting element 8a. Shut off momentarily. Therefore, the rotation speed sensor 8 detects the rotation speed of the fan 3 through the presence or absence of light detected by the light receiving element 8b.

However, the rotation speed sensing structure of the vaporized rotary heater configured as described above is partially, when the air sucked through the central portion of the fan case (2) is obtained by the rotational force of the fan (3) flows out into the hose (4) Detection of light by the light receiving element 8b due to dust trapped in the hole 8c of the rotational speed sensor 8 by the air resorbed between the fan 3 and the fan case 2 along the air flow Since the fan 3 is not normally rotated, there is a problem in that the fan 3 is recognized as a malfunction due to a poor detection of the rotation speed sensor 8.

The present invention has been made to solve the above problems, by installing a fan rib in the center of the fan to prevent the re-intake of air between the fan and the fan case to prevent dust from entering the hole formed in the speed sensor. It is an object of the present invention to provide a rotation speed sensing structure of a vaporized rotary heater.

1 is a configuration diagram showing a structure of a general vaporized rotary heater,

2 is a configuration diagram showing a rotation speed detection structure of a vaporized rotary heater according to the prior art,

3 is a configuration diagram showing a speed sensor;

4 is a configuration diagram illustrating a rotation speed sensing structure of a vaporized rotary heater according to the present invention.

* Explanation of symbols for main parts of the drawings

51: motor 52: fan case

53: Fan 58: Speed Sensor

60: fan rib

Rotation speed detection structure of the vaporized rotary heater according to the present invention for achieving the above object is a motor, a fan case installed on the lower side of the motor, a fan installed inside the fan case to be rotated by the motor, A rotation speed sensing structure of a vaporized rotary heater configured to include a rotation speed sensor installed at an inner upper end of the fan case to sense the rotation speed of the fan, to prevent air from being re-sucked between the fan and the fan case. It characterized in that the fan rib is installed in the central suction portion of the fan.

In addition, the present invention configured as described above is rotated because the amount of air re-absorbed between the fan and the fan case is significantly reduced to prevent foreign matter such as dust in the hole formed between the light emitting element and the light receiving element of the rotation speed sensor. There is an advantage that the water detection function is improved.

Hereinafter, embodiments of the present invention will be described with reference to the accompanying drawings.

As shown in FIG. 4, the rotation speed sensing structure of the vaporized rotary heater according to the present invention includes a motor 51, a fan case 52 installed below the motor 51, and the motor 51. A fan 53 installed inside the fan case 52 so as to rotate, a rotation speed sensor 58 installed at an inner upper end of the fan case 52 to sense the rotation speed of the fan 53, and the A plurality of light cuts 59 provided on the upper surface of the fan 53 and fan ribs provided in the central suction portion of the fan 53 to prevent re-intake of air between the fan 53 and the fan case 52. It consists of 60.

Here, the rotation sensor 58 is formed with a groove through which the light cut 59 passes as the fan 53 is rotated, and a light emitting element and a light receiving element are installed at one side and the other side of the groove, respectively. A hole is formed between the light emitting element and the light receiving element as a passage through which light passes.

The rotation speed sensing structure of the vaporized rotary heater according to the present invention is operated as follows.

First, when the fan 53 is rotated by the operation of the motor 51, outside air is sucked through the central portion of the fan case 52, and the sucked air is rotated by the fan 53 by the rotational force of the fan 53. Outflow to the carburetor through a hose installed in the case 52.

At this time, when the fan 53 is rotated, the light cut 59 intersects the light emitting device and the light receiving device while passing through the groove formed in the rotation speed sensor 58 to temporarily block light emitted from the light emitting device. do. Therefore, the rotation speed sensor 58 detects the rotation speed of the fan 53 through the presence or absence of light detected by the light receiving element.

In addition, a fan rib 60 is installed at the central suction portion through which the air sucked through the fan case 52 flows into the fan 53, so that the rotational force of the fan 53 flows out into the air. The influence is reduced so that air is not resorbed between the fan 53 and the fan case 52. Therefore, the amount of air re-absorbed into the fan 53 is greatly reduced to prevent dust from being caught in the hole formed between the light emitting element and the light receiving element of the rotation speed sensor 58.

The rotation speed sensing structure of the vaporized rotary heater according to the present invention configured and operated as described above is provided with a fan rib 60 is installed in the central suction portion of the fan 53, the fan 53 and the fan case Since the amount of air re-absorbed between the 52 is drastically reduced, foreign matters such as dust are prevented from being caught in the hole formed between the light emitting element and the light receiving element of the rotation speed sensor 58, so that the rotation speed detection function is improved and accordingly the product There is an advantage that the reliability of the is improved.

Claims (1)

A motor, a fan case installed below the motor, a fan installed inside the fan case to be rotated by the motor, and a rotation speed sensor installed at an inner upper end of the fan case to sense the rotation speed of the fan. In the rotation speed detection structure of the vaporized rotary heater including, And a fan rib is installed at the central suction portion of the fan to prevent air from being resorbed between the fan and the fan case.

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