KR20050064946A - Exhaust air guide for the vacuum cleaner - Google Patents

Abstract

The present invention relates to an exhaust flow path guide of a vacuum cleaner, and the electrical component for driving the motor to heat the high temperature of the electrical component by guiding the flow path of the sucked air to the installation position of the PCB substrate on which the electrical equipment is installed In the vacuum cleaner installed and opened and closed by the cover, the exhaust flow path guide of the vacuum cleaner including an induction rib is erected and aligned in the direction of the air flow path from the rear inner side of the cover to guide the air via the motor upwards By providing a cover is provided in the inside of the cleaner to guide the air to the upper portion is distributed to the place where the heat generated inside the cleaner has the effect of improving the heat dissipation effect while improving the efficiency of the air flow.

Description

Exhaust flow guide of vacuum cleaner {EXHAUST AIR GUIDE FOR THE VACUUM CLEANER}

The present invention relates to an exhaust flow path guide of a vacuum cleaner, and more particularly, to an exhaust flow path guide of a vacuum cleaner that can heat dissipate electrical equipment using the flow air exhausted from the main body after filtering dust from the sucked air. .

In general, the vacuum cleaner is configured to clean the outside dust by using the air of the strong suction force generated by the driving motor, and to collect the dust inside the vacuum cleaner and to discharge the sucked air to the outside.

In the vacuum cleaner as described above, a cleaner has been developed to reduce some or all of the air sucked into the main body to reflux to the head through the hose in order to reduce the internal noise and exhaust the clean exhaust.

A cross section of such a reflux vacuum cleaner is shown in FIG. 1.

In FIG. 1, a circulation passage 12 is formed at the bottom of the main body 10 from the intake motor 30 to the hose 40, and the hose 40 is a passage through which suction air passes from the head to the main body 10. A circulation outlet 44 which is a passage of the circulation air moving from the circulation passage 12 to the head is formed around the 42. In addition, an exhaust passage 14 connected to the exhaust port 18 side from the intake motor 30 is also formed at the bottom of the main body 10.

In addition, the partition 16 is formed at the bottom of the main body 10 between the impeller portion 32 and the coil portion 34 of the intake motor 30 so that air that is not warmed through the impeller portion 32 circulates. A partition wall 16 is formed in which the air that is sent to the flow path 12 and warmed through the coil part 34 is sent to the exhaust port 18 through the exhaust flow path 14.

When power is applied to the reflux vacuum cleaner, the intake motor 30 operates to suck air including foreign matters at the bottom of the head to the dust collecting member 20 through the intake port 42. Air filtered out of the dust collecting member 20 is sucked back to the intake motor (30).

Unheated air passing through only the impeller portion 32 of the intake motor 30 is sent to the circulation passage 12 by the partition wall 16 and is injected to the head again along the circulation outlet 44 of the hose 40. The foreign matter on the bottom in the head is raised from the bottom to be sucked back into the intake port 42.

On the other hand, the air warmed through the coil part 34 of the intake motor 30 is sent to the exhaust passage 14 by the partition 16 and is discharged to the outside through the exhaust port 18.

As such, the air flowing in the cleaner has only an air flow path for discharging to the outside. The air flow path is simple, and thus, a flow path for cooling the power cord or dissipating electrical appliances is not provided.

The present invention has been invented to solve the above problems, an object of the present invention is to guide the flow path of the suctioned air to the installation position of the PCB substrate on which the electrical equipment is installed vacuum cleaner that can dissipate high heat of electrical components It is for providing the exhaust flow path guide.

In order to achieve the above object, the present invention provides a vacuum cleaner in which an electrical component for driving a motor is installed and opened and closed by a cover, the air flow in the rear inner side of the cover to guide the air through the motor upwards. Provided is an exhaust passage guide of a vacuum cleaner comprising induction ribs that are erected and aligned in the direction of the path.

The present invention is characterized by an air flow that can dissipate an electrical component that generates high heat during operation using air sucked into the vacuum cleaner.

The present invention having the above characteristics will become apparent from the detailed description that follows.

2 illustrates a configuration for an air flow path of a vacuum cleaner according to the present invention, in which various parts of the cleaner are omitted.

In FIG. 2, the motor 14 for generating a strong suction force is insulated by a housing and a motor cap 16 that form an exterior, and a sound absorbing tube 12 is embedded inside the housing 10.

In the rear of the sound absorbing tube 12, a plurality of air flow holes 13 through which the air passing through the main filter passes through the main filter is gradually formed in a circumferential shape.

In addition, the housing 10 has a fixing bracket 20 is installed to be fixed to the inside of the cleaner body, the fixing bracket 20 is provided with exhaust air via the sound absorbing tube 12 inside the body. A side guide plate 22 is formed to guide the cord reel 24.

In addition, a plurality of induction ribs 42 for guiding a part of the air through the fixing bracket 20 upwardly are formed in the vertical direction behind the cover 40 of the vacuum cleaner.

In the fixing bracket 20, a guide plate 34 communicating with the side guide plate 22 is formed on one side, and a filter mounting plate 30 to which an exhaust filter 32 for purifying air is attached is installed. do.

Hereinafter, the effect of the present invention configured as described above will be described.

When the vacuum cleaner is operated to drive the motor 14, the air is sucked together with the outside air by the suction force of the motor 14, and then dust is collected while passing through a predetermined filter assembly or the like.

The air after the dust is collected is guided into the housing 10 of the motor 14, as shown in Figure 5, to be discharged to the outside, at this time, the sound absorbing tube 12 installed on the outside of the motor 14 Via.

Then, the air passing through the sound absorbing tube 12 as described above is directed toward the fixing bracket 20 while being discharged to the outside of the housing 10.

Since the side guide plate 22 formed on one side of the fixing bracket 20 guides air to the side, the exhaust filter 32 of the filter mounting plate 30 passes through the fixing bracket 20 and the filter mounting plate 30. Air passing through) flows to the side in a state where fine dust is caught and is directed to the cord reel 24.

On the other hand, the air discharged from the sound absorbing tube 12 passes through the fixing bracket 20, and some air in which the fine dust is caught via the filter mounting plate 30 is guide rib 42 of the cover 40. The upper side of the fixing bracket 20, that is, the upper side of the housing 10 of the motor 14, as shown in Figure 3, which is a plurality of electrical equipment is installed above the motor 14 Bar, the air guided by the induction rib 42 is to dissipate the electrical component.

As described above, according to the present invention, the air exhausted through the motor 14 is guided to the upper part of the motor 14 by the induction ribs 42 of the cover 40, so that the electrical components can be discharged to the outside after heat dissipation. This can be dissipated.

By the exhaust passage guide of the present invention, the cover is provided to guide the air in the upper portion of the cleaner is distributed to the place where the heat generated inside the cleaner is to have an effect of improving the heat dissipation effect while improving the efficiency of the air flow .

1 is a cross-sectional view illustrating an embodiment of the air flow of a conventional vacuum cleaner.

2 is a block diagram according to the present invention.

Figure 3 is a state diagram showing that the air is guided to the upper inside the vacuum cleaner by the present invention.

<Description of the symbols for the main parts of the drawings>

10 housing 12 sound absorption tube

14: motor 20: fixed bracket

22: side guide plate 30: filter mounting plate

40: cover 42: induction rib

Claims (1)

In the vacuum cleaner that is installed and opened by the cover an electrical component for driving the motor 14, It characterized in that it comprises an induction rib 42 is erected and aligned in the direction of the air flow path in the rear inner side of the cover 40 to guide the air via the motor 14 to the electrical component. Guide the exhaust euro of the vacuum cleaner.