JPH03170119A - Suction port body for vacuum cleaner - Google Patents

Abstract

PURPOSE:To stabilize suction force of a dust suction port and to enhance the running property by varying the inflow quantity of the open air to a suction port body, and stabilizing the degree of vacuum in the suction port body. CONSTITUTION:A suction port body has a front space being a rotary brush chamber 21 in which a rotary brush 11 is contained, and the upper part is covered with a cover body 30. The cover body 30 is provided with a vacuum degree adjusting chamber 31. For instance, in the case of cleaning on a carpet, dust, etc., are sucked from a dust suction port 22 by moving the suction port body 10. In such a case, when the suction port body 10 is in a state floating from the carpet, the dust suction port 22 is not closed up, and the degree of vacuum in the rotary brush chamber 21 does not become higher. Accordingly, a cut-off body 36 in the vacuum degree adjusting chamber 31 is energized by a coil spring 35 and positioned on the side of an air hole 32 and closes up the air hole 32, it does not occur that the open air flows into the rotary brush chamber 21. On the other hand, when the suction port body is in a state sinking in the carpet, the carpet is sucked in so as to close up the dust suction port 22, and the degree of vacuum in the rotary brush chamber 21 becomes high.

Description

[Detailed Description of the Invention] [Industrial Application Field] This invention relates to a suction port body for a vacuum cleaner. [Prior Art] Conventionally, in the suction port of a vacuum cleaner, a leak hole or the like is provided in the suction port so that a suction port provided on the bottom surface of the suction port is provided.
There are known products that can weaken the suction force on the floor of the mouth. This is in response to the fact that the suction power of the dust suction port has increased as the performance of the main body of the vacuum cleaner has improved, and when used on carpets or tatami mats, air channels such as leak holes should be closed. By sucking outside air into the suction port body and reducing the degree of vacuum within the suction port body, the suction force of the suction port body is weakened and a decrease in running performance is prevented.

As described above, other measures to weaken the suction force include creating a step on the front of the suction port body or changing the side wall of the suction port chamber to secure an air path. [Problem to be solved by the invention] However, even if an air path is provided in the suction port body using a leak hole or the like, the amount of air flowing in the air path is always constant, so it cannot respond to changes in suction force. There was a problem. In other words, in environments where the suction force is stronger, such as on a damp surface, the degree of vacuum cannot be lowered sufficiently and Ma, etc., sticks to the dust suction port, resulting in poor running performance and a heavy operating feel. Furthermore, in the case of tatami mats, etc., which have weak suction power, the degree of vacuum is lowered more than necessary, which weakens the suction power of the dust suction port, making it impossible to clean efficiently. This invention was made in view of the above problems, and its purpose is to stabilize the degree of vacuum inside the suction port by changing the amount of outside air flowing into the suction port. An object of the present invention is to provide a suction port body for a vacuum cleaner that can stabilize suction force and improve running performance. [Means for Solving the Problems] In order to achieve the above object, the present invention provides a suction port body with a dust suction port on the lower surface, and detects the level of vacuum inside the suction port body to open an outside air introduction passage. A variable valve whose temperature can be increased or decreased is provided, one end of the variable valve communicates with the inside of the suction port body, and the other end of the variable valve is opened on the outer surface of the suction port body spaced apart from the floor surface. There is. [
Effect: With the above configuration, when the suction force of the object to be cleaned is strong, the degree of vacuum of the suction port body is sufficiently reduced through the variable valve,
Reduces the suction force of the suction port body. In addition, if the suction power of the object to be cleaned is weak, the vacuum level of the suction port body is not lowered more than necessary via the variable valve, and sufficient suction power of the suction port body is ensured. [Example] Hereinafter, a suction port body for a vacuum cleaner according to the present invention will be explained based on the drawings. Figures 1 to 5 show an example of a suction port body for a vacuum cleaner. The suction port body 10 of the vacuum cleaner shown in FIGS. 1 and 5 is a suction port body with a rotating brush in which a rotating brush 11 is provided at the dust suction port. It has a communicating pipe 12 formed therein. The suction port body 20 has a front space as a rotating brush chamber 21 in which the rotating brush 11 is housed, and the upper part of the rotating brush chamber 21 is
It is covered by a lid body 3o that forms the front part of the suction port body 20.

The lower surface of the rotating brush chamber 21 is opened as a dust suction port 22, and behind the dust suction port 22 is the suction port 2 of the communication pipe 12.
3 is formed. On both sides of the suction port 23, a motor room housing a motor for rotating the rotary brush 11 by belt transmission and a circuit room (both not shown) are provided. As shown in FIG. 2, the lid 30 has a vacuum degree adjustment chamber 31 at the rear end of the back surface 30a, with the outer surface 301 of the lid 3o serving as a ceiling. The vacuum level adjustment chamber 31 shown in FIG. 3 has five ventilation holes 32 arranged in parallel with the rear end of the lid 30 and opening to the outer surface 30b of the lid 30 on the ceiling of one end 31a ( (see Fig. 1), the rotating brush chamber 21 is located on the side surface of the other end side 31b.
A continuous hole 33 opening inward is provided (see Figure 2). A cylindrical portion 34 is formed inside the communication hole 33, and serves as a receiving portion for a coil spring 35, which will be described later. Inside the vacuum degree adjustment chamber 31, a coil spring 35 is installed.
A blocking body 36 is attached via the. One end of the coil spring 35 is fixed so as to surround the outer periphery of the cylindrical portion 34, and the other end is in contact with the breaking member 36. As shown in FIG. 4, the blocking body 36 has a T-shaped cross-sectional shape with the lower portions of both sides cut off. 3
It has a length that can prevent 2. Also, the top surface 3
6a is provided with a wall-like rib 37 made of, for example, rubber, over the entire circumference of the periphery to improve the adhesion with the vacuum degree adjustment chamber 31. As shown in FIG. 3(a), this blocking body 36 is always connected to the ventilation hole 3 by a coil spring 35.
It is biased towards the 2nd side. In addition, it can move toward the communication hole 33 side against the elastic force of the coil spring 35 (see FIG. 3(b)), and when it is located closest to the communication hole 33 side, all the ventilation holes 32 are closed. It is in an open state (Fig. 3 (C)
)reference). Therefore, by moving the blocking body 36 toward the communicating hole 33 side, an air path is formed in the vacuum degree adjustment chamber 31 that passes from the ventilation hole 32 to the communicating hole 33 through the lower portions of both sides of the blocking body 36. Ru. In this way, the vacuum level adjustment chamber 31 is controlled by the blocking body 36 moving against the elastic force of the coil spring 35.
Since the number of open ventilation holes 32 changes, the amount of ventilation in the air passage can be changed. In other words, it functions as a variable valve that detects the degree of vacuum in the rotating brush chamber 21 and increases or decreases the opening degree of the vent hole 32 as an outside air introduction port. By changing the amount of air flowing into the rotating brush chamber 21, the degree of vacuum inside the rotating brush chamber 21 changes. Next, the operation of the suction port body of the vacuum cleaner having the above configuration will be explained. For example, when cleaning carpet, the suction port body 10 is moved to suck in dust etc. from the dust suction port 22. At this time, when the suction port body 10 is floating from the dust (for example, when the suction force of the object to be cleaned is weak), the dust suction port 22 is not blocked and the degree of vacuum in the rotating brush chamber 21 is not increased. do not have. Therefore, the shutoff body 36 in the vacuum level adjustment chamber 31 is biased by the coil spring 35 and is positioned on the side of the ventilation hole 32 to block the ventilation hole 32 (see FIG. 3(a)),
There is no outside air flowing into the room. On the other hand, in a state where the suction port body 10 is buried in the carpet (for example, when the suction force of the object to be cleaned is strong), the dust suction port 22
The vacuum inside the rotating brush chamber 21 increases as the carpet is sucked in so as to block it. When the degree of vacuum increases, the shutoff body 36 in the vacuum degree adjustment chamber 31 is drawn toward the communication hole 33 against the elastic force of the coil spring 35, and the ventilation holes 32 are sequentially opened (see FIG. 3). (b), (C)
reference). The outside air that has flowed into the vacuum level adjustment chamber 31 from the open ventilation hole 32 flows into the rotating brush chamber 21 via the air passage (see arrows in FIGS. 3(b) and 3(C)), and the rotating brush. The degree of vacuum in the chamber 21 is lowered. Then, when the degree of vacuum in the rotating brush chamber 21 decreases, the biasing force of the coil spring 35 becomes stronger than the force that pulls the blocking body 36, and the movement of the blocking body 36 is stopped. Therefore, the position of the shutoff body 36 in the vacuum degree adjustment chamber 31 changes according to the change in the degree of vacuum in the rotating brush chamber 21 (see FIGS. 3(a), (b), and (C)), and automatically The opening degree of the ventilation hole 32 is increased or decreased. In this way, by detecting an increase or decrease in the degree of vacuum in the rotating brush chamber 21 and increasing or decreasing the amount of outside air flowing in, the dust suction port 22
The suction force of the suction port body 10 can be adjusted, and the running performance of the suction port body 10 can be kept constant. Furthermore, the degree of vacuum of the suction port body 10 is adjusted by a vacuum degree adjustment chamber 3 provided inside the suction port body 10.
1, accurate and efficient adjustments can be made. Note that the vent hole 32 is not limited to being provided in the lid 30, and the same effect can be obtained as long as it is provided on the outer surface of the suction port body 10 that is spaced from the floor surface. In addition, by increasing or decreasing the number of ventilation holes 32, the strength of the suction force can be adjusted. [Effects] As described above, the present invention provides a suction port body with a dust suction port on the lower surface, and detects the level of vacuum inside the suction port body to increase or decrease the opening degree of the outside air introduction passage. It is characterized in that a valve is provided, one end of the variable valve communicates with the inside of the suction port body, and the other end of the variable valve opens on the outer surface of the suction port body spaced apart from the floor surface. Therefore, depending on the state of the suction force of the object to be cleaned, a stable suction force from the dust suction port is ensured, and the running performance of the suction port body is stabilized, so the operability of the suction port body is improved. It can be improved.

[Brief explanation of the drawing]

FIG. 1 is a perspective view of the suction port body of the vacuum cleaner according to the present invention, FIG. 2 is a perspective view of the lid seen from the back, and FIG. ) is a cross-sectional view with all ventilation holes closed, (b) is a cross-sectional view with some ventilation holes closed, (C) is a cross-sectional view with all ventilation holes open, and Figure 4 is a cross-sectional view with all ventilation holes closed. A perspective view of the body, FIG. 5 is a schematic explanatory diagram of the inside of the suction port body to which a rotating brush is attached. 10... Vacuum cleaner suction port body 2o... Suction port body 22... Dust suction port 30a... Outer surface 31... Vacuum degree adjustment chamber (variable valve) 32... Ventilation hole 33.・Communication hole

Claims (1)

[Claims] A suction port body is provided with a dust suction port on the lower surface, and a variable valve is provided that detects the degree of vacuum within the suction port body to increase or decrease the degree of opening of the outside air introduction passage, and one end of the variable valve is connected to the suction port. A suction spout body for a vacuum cleaner, characterized in that the variable valve communicates with the inside of the spout body, and the other end of the variable valve is opened at an outer surface of the suction mouth body spaced from a floor surface.