JP4079788B2 - Suction port and vacuum cleaner provided with the same - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a suction port body including a suction port body provided with a suction opening on a bottom surface, and a connection pipe rotatably provided to the suction port body, and a vacuum cleaner including the suction port body.
[0002]
[Prior art]
Conventionally, an upright-type vacuum cleaner that has a connecting pipe connected to the vacuum cleaner body that can be rotated up and down with respect to the suction port body via a rotating tube so that the suction port body can be easily operated back and forth. The machine is known.
[0003]
In this electric vacuum cleaner, the biasing means provided with a locking portion for biasing the bottom surface of the suction port body to the surface to be cleaned and locking the vacuum cleaner body in a substantially vertical state with respect to the suction port body. Is provided.
[0004]
The biasing means is composed of a torsion spring having one end abutted on the suction port body and the other end abutted on the connection pipe and biasing the suction port body toward the surface to be cleaned. When the pin to be moved over the protrusion provided at one end of the torsion spring, the vacuum cleaner main body was locked in a substantially vertical standing state (Patent Document 1).
[0005]
[Patent Document 1]
JP 2000-217750 A (FIGS. 8 and 10)
[0006]
[Problems to be solved by the invention]
However, in the conventional suction port body, since the lead wire from the rotary tube is also drawn out to the side where the motor of the suction port body is housed, the urging force disposed on the motor side of the suction port body There is a possibility that the means may be entangled with the lead wire or the lead wire may be broken.
[0007]
Further, in the urging means using the torsion spring as described above, the torsion spring must be assembled to the suction port body after being twisted by a predetermined amount, so that the assemblability is poor and the working efficiency is lowered. There was a problem. Furthermore, there is a problem that the biasing force of the torsion spring is too weak to lock and hold the relatively heavy vacuum cleaner body in an upright state. Conversely, if the biasing force of the torsion spring is increased, the suction port body There is a problem that the torsion spring becomes more difficult to assemble.
[0008]
The present invention enables a vacuum cleaner main body to be reliably locked in an upright state with respect to the suction port main body, and a suction port body in which a locking mechanism can be easily assembled to the suction port main body and an electric device including the same. The object is to provide a vacuum cleaner.
[0009]
[Means for Solving the Problems]
The present invention has been made in view of the above circumstances, and the invention of claim 1 includes a connection pipe attached to a substantially central portion of the suction port body so as to be pivotable in the front-rear direction via a rotary tube, and the suction pipe. An electric part provided in the mouth body, a circuit board for controlling the electric part and disposed on one side of the connection pipe, a lead wire wired to the circuit board, and the connection pipe standing upright A suction port body having a locking mechanism that locks the rotary tube and the suction port main body in a state in which the rotary tube is held, wherein the locking mechanism is disposed on the other side of the connection pipe. Yes.
[0010]
DETAILED DESCRIPTION OF THE INVENTION
DESCRIPTION OF EMBODIMENTS Hereinafter, embodiments of a suction port body and a vacuum cleaner including the same according to the present invention will be described based on the drawings.
[0011]
FIG. 1 shows an appearance of an upright type vacuum cleaner 1. This electric vacuum cleaner 1 has a vacuum cleaner body 2 having a handle 2 a and a handle 3. The handle 3 is foldably attached to an upper portion of a suction air duct pipe 4 formed of a double pipe that is integrally provided adjacent to the cleaner body 2.
[0012]
A suction port body 5 is detachably attached to a lower portion of the suction air duct 4 via a connection pipe described later. In the cleaner body 2, an electric blower 6, a cyclone case 7 and a dust cup 8 are disposed from above.
[0013]
The suction air duct 4 is electrically connected to the cleaner body 2 at a height corresponding to the cyclone case 7. Further, one end of a dust collecting hose 9 for cleaning the gap is attached to the suction air duct 4, and the other end of the dust collecting hose 9 is usually attached to a hose attachment part 10.
[0014]
When the air in the cleaner body 2 is sucked by the electric blower 6 and the inside of the cleaner body 2 becomes negative pressure, the air sucked from the bottom surface 11 of the suction port body 5 is cleaned through the suction air duct 4. It is introduced into the cyclone case 7 of the main body 2. Due to the action of the cyclone generated in the cyclone case 7, the sucked air dust is separated and stored in the dust cup 8.
[0015]
Further, the air blown from the electric blower 6 is circulated again to the suction port body 5 through a circulation air passage (not shown) of the suction air passage pipe 4 and blown to the surface to be cleaned.
[0016]
Next, the structure of the said suction inlet main body 5 is demonstrated based on FIG.2 and FIG.3. As shown in FIG. 1, the suction port body 5 has an upper case 12 and a lower case 13, and FIGS. 2 and 3 respectively show the inside of the suction port body 5 with the upper case 12 removed.
[0017]
In FIG. 3, the suction opening 14 is formed in the bottom face 11 side of the suction inlet main body 5 along the horizontal direction. A front partition wall 15, left and right partition walls 16 and 17, and rear partition walls 18 and 19 are provided so as to surround the suction opening 14.
[0018]
The partition walls 16 and 18 and the rear wall 20 of the lower case 13 form an L-shaped first chamber 21 having an extension 21 a on one side (left side) of the suction port body 5.
Similarly, an L-shaped second chamber 22 having an extension 22 a is formed by the partition wall 17, the partition wall 19, and the rear wall 20 on the other side (right side) of the suction port body 5.
[0019]
A rotary cleaning body 23 is disposed above the suction opening 14. The rotary cleaning body 23 includes a plurality of rows of brushes 25 and blades 26 arranged alternately in a spiral shape along the longitudinal direction of the support shaft 24.
[0020]
One end of the rotary cleaning body 23 is rotatably supported on the partition wall 17 via a bearing 27, and the other end is rotatably supported on the partition wall 16 via a bearing 28. A timing gear 29 is fixed to the support shaft 24 on the partition wall 16 side.
[0021]
A motor 30 for driving the rotary cleaning body 23 is accommodated in the first chamber 21 described above. A timing gear 32 is fixed to the output shaft 31 of the motor 30 and is connected to the timing gear 29 via a timing belt 33.
[0022]
Further, a circuit board 34 is accommodated in the second chamber 22. As shown in FIG. 4, the circuit board 34 has a plurality of electrical components 35, a print arrangement (not shown), and the like. Moreover, the partition wall 18 and the partition wall 19 mentioned above have the partition walls 18a and 19a which follow the front-back direction continuously, respectively. A communication path A is formed by the partition wall 18a and the partition wall 19a.
[0023]
The connection pipe 36 shown in FIGS. 2 and 3 connects the suction port body 5 to the suction air duct 4 (see FIG. 1) of the cleaner body 2. A rotating tube 37 is provided.
[0024]
As shown in FIGS. 4 and 5, the rotary pipe 37 has a bearing portion 38 formed on each of the partition walls 18 a and 19 a and a similar one formed on the upper case 12 (see FIG. 1) of the suction port body 5. The bearing part is supported so as to be rotatable in the front-rear direction. In addition, the suction inlet main body 5 is supported by the wheel 39 (refer FIG. 3) arrange | positioned at the side wall 20a of both sides so that it can move back and forth along the to-be-cleaned surface.
[0025]
A suction port body 40 is configured by the suction port main body 5 and the connection pipe 36 configured as described above. The air containing the dust sucked from the suction opening 14 while the suction port body 40 moves back and forth on the surface to be cleaned is sent to the cleaner body 2 through the A and the connection pipe 36 to collect the dust. .
[0026]
The suction port body 5 is connected to electricity for power supply and control via a connection pipe 36 from the handle 3 and the suction air duct 4 side of FIG. As shown in FIG. 4, a plurality of lead wires 41 are led out from the opening 37 a on the circuit board 34 side of the rotary tube 37.
[0027]
A part of the lead wire 41 is used as a lead wire for wiring of the circuit board 34, and the other lead wire is connected to the motor 30 via a wiring path (not shown) of the lower case 13.
[0028]
The connection pipe 36 and the cleaner body 2 to which the connection pipe 36 is connected require a locking mechanism for locking in the standing state. The extension portion 22a of the second chamber 22 in which the circuit board 34 is accommodated has a plurality of lead wires 41 from the rotary tube 37, other electrical components 42, and the like, so that it is difficult to arrange the locking mechanism. There is a risk that the lead wire 41 may be broken.
[0029]
Therefore, in the present embodiment, as shown in FIG. 5, a locking mechanism 43 for raising the connection pipe 36 is disposed in the extension portion 21 a of the first chamber 21 in which the motor 30 is housed as an electric portion. .
[0030]
In FIG. 5, a base portion 45 a of a leaf spring 45 is fixed to the support portion 44 in the extension portion 21 a by a screw 47 via a pressing member 46, and a protrusion 45 b is formed at an intermediate portion of the leaf spring 45. Has been.
[0031]
In addition, a locking member 48 partially extending toward the leaf spring 45 is fixed in the opening 37b of the rotary tube 37 on the motor 30 side. The locking member 48 has an outer peripheral surface 48 a that can press the leaf spring 45.
[0032]
The outer peripheral surface 48a is formed with a recess 48b in which the protrusion 45b of the leaf spring 45 can be locked. The recess 48b is engaged with the protrusion 45b of the leaf spring 45 when the connection pipe 36 and the cleaner body 2 are in the standing state, and locks the standing state of the cleaner body 2.
[0033]
When the locking member 48 presses the leaf spring 45 by the outer peripheral surface 48a other than the concave portion 48b, the distal end side of the suction port body 5 is pressed against the surface to be cleaned by the urging force of the leaf spring 45 as urging means. It is energized to be.
[0034]
The plate spring 45, the locking member 48, and the like constitute a locking mechanism 43 for locking the connection pipe 36 and the cleaner body 2 in an upright state.
[0035]
In the conventional suction port body, the torsion spring is used for the locking mechanism that locks the cleaner body 2 in the standing state, so that the assembling property is poor and the elasticity for locking the cleaner body 2 is small. .
[0036]
On the other hand, in the present embodiment, since the spring constituting the locking mechanism 43 is constituted by the leaf spring 45, the leaf spring 45 can be easily assembled to the suction port body 5, and the suction port The work efficiency at the time of assembling the main body 5 can be improved.
[0037]
In addition, since the biasing means of the locking mechanism 43 is a leaf spring 45 capable of selecting a large elastic force, the tip of the suction port body 5 can be pressed against the surface to be cleaned with a desired strength. The locking action of the locking mechanism 43 can be ensured.
[0038]
The leaf spring 45 and the locking member 48 are each made of a metallic material. When the cleaner body 2 is cleaned while being tilted with respect to the suction port body 5, the locking member 48 and the leaf spring 45 slide with each other. As described above, the leaf spring 45 and the locking member 48 are made of a metallic material. Thus, the wear of the leaf spring 45 and the locking member 48 is prevented, and the durability of the locking mechanism 43 can be improved.
[0039]
Next, the operation of the suction port body 40 will be described.
[0040]
When the surface to be cleaned is being cleaned by the electric vacuum cleaner 1 (see FIG. 1), the suction air duct 4 of the cleaner body 2 is in an inclined state as shown in FIG. At this time, the protrusion 45 b of the leaf spring 45 is pressed by the outer peripheral surface 48 a of the locking member 48. Since the contact portion between the outer peripheral surface 48a and the outer peripheral surface 48a is located on the front side (left side in FIG. 6) of the suction port body 5 with respect to the center C of the rotary tube 37, the tip of the suction port body 5 is the surface to be cleaned. Can be stably cleaned by being pressed.
[0041]
In addition, although the outer peripheral surface 48a of the locking member 48 showed the case where it was short in this Embodiment, the length of 80 degrees or more from the recessed part 48b is actually preferable. By forming the outer peripheral surface 48a long in this way, the tip of the suction port body 5 can be continuously pressed against the surface to be cleaned even if the cleaner body 2 is largely inclined with respect to the suction port body 5. .
[0042]
When the electric vacuum cleaner 1 is stored or carried to a different place, the cleaner main body 2 is raised with respect to the inlet main body 5 as shown in FIG. At this time, as shown in FIG. 7, the locking member 48 of the locking mechanism 43 rotates together with the rotary tube 37, and the concave portion 48 b is locked to the protrusion 45 b of the leaf spring 45, so that the cleaner body 2 is locked upright.
[0043]
The rotary tube 37, that is, the spring that locks the cleaner body 2 is the leaf spring 45 having a relatively strong elastic force than the torsion spring, so that the cleaner body 2 can be reliably locked in an upright state, and the suction port When assembling the main body 5, the leaf spring 45 can be easily assembled.
[0044]
The locking mechanism 43 configured as described above is disposed on the opening 37b side opposite to the side from which the lead wire 41 of the rotary tube 37 is drawn, that is, the opening 37a side (see FIG. 4). The phenomenon that the lead wire 41 is entangled with the locking mechanism 43, the malfunction of the locking mechanism 43 due to this, and the disconnection of the lead wire 41 can be prevented.
[0045]
And by applying such a suction inlet body 40 to the vacuum cleaner main body 2, while being able to perform the stable cleaning effect | action, when the vacuum cleaner 1 is moved and stored, it can be reliably locked in an upright state. The vacuum cleaner 1 which can be implemented is realizable.
[0046]
In the present embodiment, the motor (electric unit) 30 has been described as driving the circuit board 34, but the motor 30 may drive the wheels 39 and the like.
[0047]
The suction port body 40 according to the embodiment of the present invention described above is connected to the connection pipe 36 that is rotatably attached to the center of the suction port body 5 in the front-rear direction via a rotary tube. It has the electric part 30 provided. Further, the circuit board 34 disposed on one side of the connection pipe 36 and the lead wire 41 wired to the circuit board 34 are controlled, and the connection pipe 36 is erected. It has the latching mechanism 43 which locks the said rotating tube 37 and the said suction inlet main body 5 in the state. The locking mechanism 43 is disposed on the other side of the connection pipe 36.
[0048]
According to this configuration, the locking mechanism 43 that locks the connection pipe 36, for example, the cleaner main body 2 to which the connection pipe 36 is connected, in the standing state with respect to the suction port main body 5, the lead wire 41 of the rotary tube 37. Since the lead wire 41 is arranged on the side opposite to the side from which the lead wire is pulled out, it is possible to eliminate the phenomenon that the lead wire 41 is entangled with the locking mechanism 43 or disconnected. For this reason, the suction inlet 4 can be used stably.
[0049]
Further, in the suction port body 40 according to the embodiment of the present invention, the locking mechanism 43 is movable together with the plate spring 45 and the rotary tube 37 and locked to the projecting portion 45 b provided on the plate spring 45. It is characterized by comprising a locking member 48.
[0050]
According to this configuration, the locking mechanism 43 includes the leaf spring 45 and the locking member 48 that moves together with the rotary tube 37 and locks to the protrusion 45b provided on the leaf spring 45. The plate spring 45 can be easily assembled to the suction port body 5. Further, the urging force of the leaf spring 45 can be easily selected so as to increase.
[0051]
Further, the suction port 40 according to the embodiment of the present invention is characterized in that the leaf spring 45 and the locking member 48 are made of a metallic material.
[0052]
According to this configuration, since the plate spring 45 and the locking member 48 locked to the plate spring 45 are made of a metallic material, the plate spring 45 and the engaging member are engaged even when the cleaner body 2 is repeatedly rotated with respect to the suction port body 5. The wear of the stop member 48 can be prevented and the durability of the suction port body 40 can be improved.
[0053]
Moreover, the vacuum cleaner 1 of embodiment of this invention has the vacuum cleaner main body 2 which has the handle 2a for operation while incorporating the electric blower 6, and the suction inlet 40 mentioned above.
[0054]
According to this configuration, the lead wire 41 in the suction port body 40 is prevented from being disconnected, and the cleaner body 2 is securely attached when the cleaner body 2 is carried and when the cleaner body 2 is stood and stored. Thus, it is possible to realize the electric vacuum cleaner 1 that is locked in the standing state.
[0055]
【The invention's effect】
As described above, according to the first aspect of the present invention, the locking mechanism for locking the connecting pipe, that is, the cleaner main body in an upright state with respect to the suction port main body, is provided on the side where the lead wire of the suction port main body is drawn out. It is possible to eliminate the phenomenon that the lead wire is entangled or disconnected in the locking mechanism. For this reason, a suction inlet can be used stably.
[Brief description of the drawings]
FIG. 1 is an external perspective view of a vacuum cleaner according to the present invention.
FIG. 2 is a perspective view showing the inside of a suction port body.
FIG. 3 is a plan view showing the inside of the suction port body.
FIG. 4 is a partial perspective view of the suction port body on the side where the circuit board is housed and the lead wire is wired.
FIG. 5 is a partial perspective view of the suction port body on the side where the locking mechanism is disposed.
FIG. 6 is a side view of the locking mechanism.
FIG. 7 is a side view of the locking mechanism in a locked state.
[Explanation of symbols]
1 Vacuum Cleaner 2 Vacuum Cleaner Body 2a Handle 5 Suction Port Body 6 Electric Blower 21 First Chamber (One Side of Suction Port Body)
22 Second chamber (other side of suction port)
30 Motor (electric part)
34 Circuit board 36 Connection pipe 37 Rotating tube 41 Lead wire 43 Locking mechanism 45 Leaf spring 45b Protrusion 48 Locking member 48b Recess

Claims (4)

A connection pipe attached to a substantially center of the suction port body via a rotary tube so as to be rotatable in the front-rear direction, an electric part provided in the suction port body, and the electric part for controlling the electric part. A circuit board disposed on one side of the pipe, a lead wire wired to the circuit board, and a locking mechanism that locks the rotary pipe and the suction port body in a state where the connection pipe is raised. A suction port,
The suction port body, wherein the locking mechanism is disposed on the other side of the connection pipe. The suction port body according to claim 1, wherein the locking mechanism includes a plate spring and a locking member that moves together with the rotary tube and locks to a protrusion provided on the plate spring. . The suction port body according to claim 2, wherein the leaf spring and the locking member are made of metal. An upright type electric vacuum cleaner comprising: a vacuum cleaner body having a built-in electric blower and an operating handle; and the suction port body according to any one of claims 1 to 3.

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