JP2005015178A - Cord reel, and electric apparatus using the cord reel - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To materialize cooling of electric cord held by winding up by a simple structure. <P>SOLUTION: A cord reel main body 10 wherein a pair of flanges 13 is provided on both side portions of a cord winding shaft 12 to which one end of string-shaped electric cord is fixed and winding/holding the electric cord on a cord winding surface 12a, is rotatably provided. The cord winding surface 12a is formed in a tilting surface tilting to a core of the cord winding shaft 12, and a side that has a small diameter due to tilting is arrange in an upper side. Therefore, when a cord reel 8 is rotated to wind up the electric cord, the electric cord is wound up from a lower side of the cord winding shaft 12 by self-weight, and the wounded part moves upward and is lined in a state tilting along the tilting cord winding surface 12a. Consequently, a surface area of the electric cord wound up by the cord reel 8 is increased, so that cooling efficiency of the electric cord is improved. <P>COPYRIGHT: (C)2005,JPO&NCIPI

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a cord reel and an electric device using the cord reel, for example, a vacuum cleaner.
[0002]
[Prior art]
Some electric devices such as a vacuum cleaner have a built-in cord reel that allows a power cord for a power source to be freely wound. Further, such a cord reel is not only built in an electric device but also may be commercialized alone.
[0003]
Such a cord reel has a structure in which, for example, an electric cord for power supply is wound up freely by a cord winding shaft having flanges at both ends. When used for electric cleaning, for example, a cord reel configured such that an electric cord can be automatically wound without manual operation by a restoring force of a spring, for example. An example of such a cord reel and its application to a vacuum cleaner is described in Patent Document 1, for example.
[0004]
[Patent Document 1]
JP 2001-178667 A
[0005]
[Problems to be solved by the invention]
When the cord reel is stored in an electric device such as a vacuum cleaner, the electric cord wound around the cord reel is affected by heat. For example, considering the case of an electric vacuum cleaner, it is difficult to cause a problem when the electric cord is drawn out over its entire length, but in actual use, the electric cord is not necessarily drawn out over its entire length, In this case, the electric blower operates while a part of the electric cord is wound and held on the cord reel. In such a case, a part of the cord reel around which the electric cord is wound and held is strongly affected by the heat generated in the electric cord due to the operation of the electric blower. For this reason, inconveniences such as deterioration of the film of the electric cord due to heat occur.
[0006]
In Patent Document 1, a ventilation hole is provided in the flange disposed on the side where the wind generated by the operation of the electric blower hits and the cord winding shaft, and the electric cord is passed by passing the air through the ventilation hole. A structure is disclosed in which the cooling is performed. However, such an electrical cord cooling structure cannot be denied that the structure is slightly complicated.
[0007]
An object of the present invention is to realize cooling of an electric cord wound and held with a simple structure.
[0008]
[Means for Solving the Problems]
A cord reel according to the present invention includes a cord winding shaft for fixing one end of a cord-like electric cord and winding and holding the electric cord on a cord winding surface, and a pair of flanges provided on both sides thereof A reel body is provided, the cord winding surface is formed in a slope shape inclined with respect to the axis of the cord winding shaft, and the side having a smaller diameter is inclined upward by the inclination of the cord winding surface with respect to the axis. The cord reel body is rotatably supported by the support portion. Accordingly, when the electric cord is wound by rotating the cord reel, the cord reel is wound from below the cord winding shaft by its own weight, and the wound portion moves upward. Thereby, since the electric cord wound around the cord reel is aligned along the inclined cord winding surface, the surface area of the electric cord wound around the cord reel is increased. Thereby, the cooling efficiency of the electric cord is improved. As an example, the cord reel of the present invention is housed and used in a cord reel housing space to which wind generated by the operation of an electric blower in an electric device is guided.
[0009]
The cord reel invention of the present invention viewed from another aspect is provided with a cord winding shaft for fixing one end of a cord-like electric cord and winding and holding the electric cord on the cord winding surface, and both sides thereof. A cord reel body having a pair of flanges is provided, the cord winding surface is formed in a slope shape inclined with respect to the axis of the cord winding shaft, and the cord reel body is rotatably supported by a support portion. To do. When the cord reel body winds the electric cord by its rotating operation, a cord guide portion for guiding the electric cord is reciprocated in the axial direction of the cord winding shaft at a position facing the cord winding surface. It is provided so as to be movable, and the power transmission portion converts the rotational motion of the cord reel body into the reciprocating motion of the cord guide portion for transmission. Accordingly, when the electric cord is wound up by rotating the cord reel, the cord transmission portion reciprocates by converting the rotational movement of the cord reel body into the reciprocating motion of the cord guiding portion by the power transmission portion, and the cord guiding portion The position facing the cord winding surface moves. Thereby, since the electric cord wound around the cord reel is aligned along the inclined cord winding surface, the surface area of the electric cord wound around the cord reel is increased. Thereby, the cooling efficiency of the electric cord is improved. As an example, the cord reel of the present invention is housed and used in a cord reel housing space to which wind generated by the operation of an electric blower in an electric device is guided.
[0010]
DETAILED DESCRIPTION OF THE INVENTION
A first embodiment of the present invention will be described with reference to FIGS.
[0011]
1 is a schematic longitudinal sectional side view of a vacuum cleaner showing a first embodiment of the present invention, FIG. 2 is a perspective view showing a cord reel 8 built in the vacuum cleaner 1, and FIG. 3 is wound up. It is a side view of the cord reel which shows an electric cord in a section.
[0012]
In the electric vacuum cleaner 1 of the present embodiment, the interior of the housing 2 is divided into a dust collection chamber 3, an electric blower storage chamber 4, and a cord reel storage chamber 5 as a cord reel storage space in a horizontal row. Yes. The dust collection chamber 3, the electric blower storage chamber 4, and the cord reel storage chamber 5 are in communication with each other. Accordingly, when the electric blower 6 stored and held in the electric blower storage chamber 4 is operated, the dust collection chamber 3 becomes negative pressure, and a dust collection hose (not shown) connected to the dust collection chamber 3 enters the dust collection chamber 3. Dust is aspirated. The dust collected in the dust collection chamber 3 is stored in a dust collection pack 7 that is detachably stored in the dust collection chamber 3. Further, the exhaust from the electric blower 6 is exhausted to the outside through the cord reel storage chamber 5. As a result, the wind generated by the operation of the electric blower 6 is guided to the cord reel storage chamber 5, and the cord-shaped electric cord 9 wound and held on the cord reel 8 stored and held in the cord reel storage chamber 5 is supplied to the cord reel storage chamber 5. Be blown. The electric cord 9 is for supplying power to the electric blower 6.
[0013]
The cord reel 8 has a structure in which a cord reel body 10 that holds an electric cord 9 so as to be wound up and pulled out is rotatably supported by a support portion 11. The cord reel body 10 is configured by a cord winding shaft 12 on which one end of the electric cord 9 is fixed and wound and held, and a pair of flanges 13 provided at both ends of the cord winding shaft 12. Has been. As shown in FIGS. 1 and 3, the cord winding shaft 12 has a cord winding surface 12 a inclined with respect to the rotation axis. Accordingly, the cord winding surface 12a is formed in a shape in which the upper side of the cord winding shaft 12 has a small diameter and the lower side has a large diameter, and the diameter linearly increases from the small diameter portion to the large diameter portion. Yes. And the cord reel main body 10 is supported by the support part 11 so that the code | winding surface 12a may face the position which the wind generated by the action | operation of the electric blower 6, ie, the exhaust_gas | exhaustion of the electric blower 6, is guide | induced.
[0014]
The cord reel body 10 formed in this way incorporates a spring (not shown) and rotates by the restoring force of this spring. That is, when the electric cord 9 wound around the cord winding shaft 12 is pulled out, the spring built in the cord reel body 10 is deformed in a direction to increase its urging force, and the spring restoring force is released by releasing the hand in this state. As a result, the cord reel body 10 rotates and the electric cord 9 is wound around the cord winding shaft 12. However, the cord reel 8 is provided with a stopper (not shown) for maintaining the drawn electric cord 9 in its drawn state. By releasing this stopper, the cord reel main body 10 rotates, and the electric cord 9 is corded. The winding shaft 12 can be wound up. Since the structure of such a spring or stopper itself is the same as a general structure, description thereof will be omitted.
[0015]
The electric cord 9 wound around the cord winding shaft 12 is drawn out from a cord hole 14 provided in the housing 2.
[0016]
In such a configuration, when the electric vacuum cleaner 1 is used, the electric cord 9 is pulled out by a necessary length and connected to a connector (not shown) of the commercial power source so that the electric blower 6 can be operated. When cleaning is completed, the stopper (not shown) is released and the electric cord 9 is wound around the cord reel 8. At this time, in the cord reel 8, the electric cord 9 is wound around the cord winding surface 12a. For this reason, the electric cord 9 is wound from below the cord winding shaft 12 by its own weight, and the wound portion moves upward. Thereby, since the electric cord 9 wound around the cord reel 8 is aligned in an inclined state along the inclined cord winding surface 12a, the surface area of the electric cord 9 wound around the cord reel 8 increases. To do. Thereby, the cooling efficiency of the electric cord 9 is improved.
[0017]
Moreover, in the present embodiment, the cord reel body 10 is supported by the support portion 11 so that the wind generated by the operation of the electric blower 6, that is, the position where the exhaust of the electric blower 6 is guided, faces the cord winding surface 12 a. Has been. Thereby, the electric cord 9 is cooled more efficiently.
[0018]
Here, in the vacuum cleaner 1, the electric blower 6 generates heat by its operation. For this reason, if the electric cord 9 is pulled out and used over its entire length, it is not necessary to cool the electric cord 9. This is because the electric cord 9 to be cooled is not located in the cord reel storage chamber 5 when the electric cord 9 is pulled out and used over its entire length. On the other hand, considering the actual usage of the vacuum cleaner 1, the electric cord 9 is not always drawn out over its entire length, and in many cases, it is drawn out and used in a necessary length. In this case, since the electric cord 9 to be cooled is positioned in the cord reel storage chamber 5, the electric cord 9 is effectively cooled by adopting the structure of the cord reel 8 of the present embodiment. Will be done.
[0019]
Here, the inventor of the present invention tried to find out by calculation how much the surface area of the electric cord 9 would increase. As a sample, a cord reel having a conventional structure in which the diameter of the entire electric cord wound on the cord winding shaft is 5 cm and the distance between the flanges is 5 cm, and the electric cord wound on the cord winding shaft 12 Assume the cord reel 8 of the present embodiment in which the diameter of the small-diameter portion is 5 cm, the diameter of the large-diameter portion is 7.5 cm, and the distance between the flanges 13 is 5 cm. In order to easily obtain the ratio of the surface area of the electric cord 9 wound around the cord reel 8, the surface area of the electric cord was calculated with the electric cord surface being flat. As a result, the surface area of the electric cord 9 is 79 cm ² in the cord reel of the conventional structure, and 101 cm ² in the cord reel 8 of the present embodiment, and the ratio is about 1: 1 to 1.3. There was found.
[0020]
Next, a second embodiment of the present invention will be described with reference to FIGS. FIG. 4 is a schematic longitudinal sectional side view of a vacuum cleaner showing a second embodiment of the present invention, and FIG. 5 is a front view of a flange of a cord reel built in the vacuum cleaner. The same parts as those in the first embodiment are denoted by the same reference numerals, and the description thereof is also omitted.
[0021]
In the present embodiment, as shown in FIG. 4, the cord reel storage chamber 5 is positioned below the electric blower storage chamber 4. As shown in FIG. 5, a plurality of vent holes 21 are formed radially on one flange 13 provided on the small diameter side of the cord winding shaft 12.
[0022]
In such a configuration, since the electric cord 9 wound around the cord reel 8 is aligned in an inclined state along the inclined cord winding surface 12a, the electric cord 9 wound around the cord reel 8 is arranged. The surface area increases. This is the same as in the first embodiment.
[0023]
In contrast, the present embodiment differs from the first embodiment in that the wind generated by the operation of the electric blower 6, that is, the exhaust of the electric blower 6 is wound around the cord winding surface 12 a of the cord reel 8. This is a path leading to the electrical cord 9. In the present embodiment, since the cord reel storage chamber 5 is positioned below the electric blower storage chamber 4, the exhaust of the electric blower 6 goes around from the electric blower storage chamber 4 to the cord reel storage chamber 5 positioned below. . The exhaust from the electric blower 6 is applied to the cord winding surface 12a of the cord reel 8 through a plurality of vent holes 21 formed radially on one flange 13 provided on the small diameter side of the cord winding shaft 12. It is guided to the wound electric cord 9. Thereby, like the first embodiment, the electric cord 9 that remains in the vacuum cleaner 1 without being pulled out is efficiently cooled.
[0024]
Next, a third embodiment of the present invention will be described with reference to FIGS. FIG. 6 is a schematic longitudinal side view of a vacuum cleaner showing a third embodiment of the present invention, FIG. 7 is a perspective view showing a cord reel built in the vacuum cleaner, and FIG. 8 is a wound electric cord. It is a side view of the cord reel which shows in section. In addition, the same part as 1st and 2nd embodiment is shown with the same code | symbol, and the description is also abbreviate | omitted.
[0025]
In the two embodiments described above, the cord reel main body 10 is arranged in the cord reel storage chamber 5 with its axial direction oriented vertically so that the small diameter side of the cord winding surface 12a is positioned upward. In the present embodiment, the cord reel body 10 is arranged in the cord reel storage chamber 5 with its axial direction oriented in the horizontal direction so that the small diameter side of the cord winding surface 12a faces the electric blower storage chamber 4. The most different point of the present embodiment from the two embodiments described above is the winding structure of the electric cord 9 around the cord winding surface 12a. This will be described in detail below.
[0026]
As shown in FIG. 7, in the present embodiment, a cord guide structure 31 is provided in the cord reel storage chamber 5. The cord guide structure 31 has a cord guide portion 32 provided so as to be reciprocally movable in the axial direction of the cord winding shaft 12 at a position facing the cord winding surface 12a. The electric cord 9 is guided both when the electric cord 9 is pulled out and when the electric cord 9 is wound up by the cord reel main body 10 by the rotating operation. That is, the cord guide structure 31 has a structure in which the cord guide portion 32 for inserting and holding the electric cord 9 is slidably supported by the two support shafts 33. In such a code guide structure 31, the rotational movement of the cord reel body 10 is transmitted to the code guide part 32 to reciprocate the code guide part 32.
[0027]
Therefore, in the present embodiment, a power transmission unit 34 that converts the rotational motion of the cord reel main body 10 into the reciprocating motion of the cord guide portion 32 and transmits it is provided. The power transmission unit 34 uses a belt transmission mechanism as a structure for converting the rotational motion of the cord reel body 10 into the reciprocating motion of the cord guide structure 31 and transmitting it. That is, a double spiral groove 35 is formed on one of the support shafts 33 that slidably support the cord guide portion 32, and the cord guide portion 32 is screwed into the double spiral groove 35. Thereby, the code | cord guide part 32 is comprised so that it may reciprocate by one direction rotation of the one spindle 33 in which the double spiral groove 35 was formed. Therefore, in the present embodiment, the rotational motion of the cord reel body 10 is transmitted to one support shaft 33 in which the double spiral groove 35 is formed. As a structure for that purpose, a gear (not shown) is formed at the end of one support shaft 33 in which the double spiral groove 35 is formed, and a gear 36 is also formed at one side of the cord reel body 10. A belt 37 is stretched between a gear (not shown) formed at the end of the support shaft 33 and a gear 36 formed at one side of the cord reel body 10. As a result, the rotational movement of the cord reel body 10 is transmitted to one of the support shafts 33 via the belt 37, and the support shaft 33 rotates to be screwed into the double spiral groove 35 formed on the support shaft 33. The code guide part 32 to be moved reciprocates. Here, the power transmission unit 34 is configured. In the power transmission unit 34, the object on which the belt 37 is wound has a gear structure, but it is needless to say that it can be configured similarly in a friction wheel or the like.
[0028]
Further, in the present embodiment, the cord reel body 10 housed in the cord reel housing chamber 5 is arranged with the side of the cord winding surface 12a having a smaller diameter facing the electric blower housing chamber 4 side. . And the flange 13 similar to 2nd Embodiment is used for the flange 13 of the cord reel main body 10 located in the electric blower storage chamber 4 side. In other words, a plurality of ventilation holes 21 are formed in the flange 13 radially.
[0029]
In such a configuration, the cord reel main body 10 rotates both when the electric cord 9 is pulled out and when the cord reel main body 10 winds the electric cord 9 by the rotation operation. When the cord reel body 10 rotates, the rotation is transmitted to one of the support shafts 33 by a power transmission unit 34 that is a belt transmission mechanism, and the double spiral formed on the support shaft 33 by the rotation of the support shaft 33. The cord guide part 32 screwed into the groove 35 reciprocates. As a result, the electric cord 9 guided by the cord guiding portion 32 reciprocates in the axial direction of the cord winding shaft 12 along the cord winding surface 12a.
[0030]
In the present embodiment, such behavior of the electric cord 9 is useful for aligning the electric cord 9 with the cord winding surface 12a when the electric cord 9 is wound. As a result, the electric cord 9 wound on the cord reel 8 is aligned in an inclined state along the inclined cord winding surface 12a. Therefore, as in the first and second embodiments, the surface area of the electric cord 9 wound around the cord reel 8 is increased, and the cooling efficiency of the electric cord 9 is improved.
[0031]
In addition, in the present embodiment, as shown in FIG. 6, the cord reel body 10 is provided with a flange in which a ventilation hole 21 is formed at a position where wind generated by the operation of the electric blower 6, that is, exhaust of the electric blower 6 is guided. 13 is arranged. Therefore, the exhaust from the electric blower 6 is sent to the cord winding surface 12a of the cord reel 8 through a plurality of vent holes 21 formed radially on one flange 13 provided on the small diameter side of the cord winding shaft 12. It is guided to the wound electric cord 9. Thereby, similarly to the first and second embodiments, the electric cord 9 remaining inside the vacuum cleaner 1 without being pulled out is efficiently cooled.
[0032]
In the present embodiment, the case where the electric cord 9 is aligned and wound by the cord guide structure 31 and the power transmission unit 34 has been described. On the other hand, you may comprise as a structure which does not provide the code | cord | chord guide structure 31 and the power transmission part 34. FIG. In this case, as shown in FIG. 9, since the electric cord 9 is randomly wound around the cord winding shaft 12, more electric cords 9 are wound on the side where the diameter of the cord winding shaft 12 is smaller. Become. In this case, the flange 13 on the smaller diameter side has a ventilation hole 21 through which air can pass. Therefore, the electric cord 9 wound around the flange 13 is cooled by the exhaust air from the electric blower 6. In other words, in the case of a structure in which the cord guide structure 31 and the power transmission unit 34 are not provided, more winding is performed on the side where the diameter of the cord winding shaft 12 is smaller by the exhaust air guided from the electric blower 6 through the ventilation hole 21. The electric cord 9 can be directly cooled, and the electric cord 9 can be radiated efficiently.
[0033]
【The invention's effect】
According to the present invention, since the electric cord is wound around the inclined cord winding surface of the cord reel, the surface area of the electric cord wound around the cord reel is increased by a simple structure, thereby improving the cooling efficiency of the electric cord. Can be made.
[Brief description of the drawings]
FIG. 1 is a schematic longitudinal sectional side view of a vacuum cleaner showing a first embodiment of the present invention.
FIG. 2 is a perspective view showing a cord reel built in the electric vacuum cleaner.
FIG. 3 is a side view of a cord reel showing a cross section of the wound electric cord.
FIG. 4 is a schematic longitudinal sectional side view of a vacuum cleaner showing a second embodiment of the present invention.
FIG. 5 is a front view of a flange of a cord reel built in the vacuum cleaner.
FIG. 6 is a schematic longitudinal sectional side view of a vacuum cleaner showing a third embodiment of the present invention.
FIG. 7 is a perspective view showing a cord reel built in the electric vacuum cleaner.
FIG. 8 is a side view of the cord reel showing the wound electric cord in cross section.
FIG. 9 is a side view of a cord reel showing a wound electric cord in cross section for explaining another configuration example of the third embodiment of the present invention.
[Explanation of symbols]
6 Electric Blower 5 Cord Reel Storage Space 8 Cord Reel 9 Electric Cord 10 Cord Reel Main Body 11 Supporting Part 12 Cord Winding Shaft 12a Cord Winding Surface 13 Flange 32 Code Guide Part 34 Power Transmission Part

Claims (4)

A string-shaped electric cord;
One end of the electric cord is fixed and has a slant-like cord winding surface inclined with respect to the axis, and a cord winding shaft for winding and holding the electric cord on the cord winding surface, and the cord winding A cord reel body having a pair of flanges provided on both sides of the shaft;
A support portion that rotatably supports the cord reel body with a side having a small diameter upward by inclination with respect to the axis of the cord winding surface;
A cord reel comprising: A string-shaped electric cord;
One end of the electric cord is fixed, has a slant-like cord winding surface inclined with respect to the axis, and a cord winding shaft for winding and holding the electric cord on the cord winding surface, and the cord winding A cord reel body having a pair of flanges provided on both sides of the shaft;
A support portion for rotatably supporting the cord reel body;
A cord that is reciprocally movable in the axial direction of the cord winding shaft at a position facing the cord winding surface, and guides the electric cord when the cord reel body winds the electric cord by its rotating operation A guide,
A power transmission unit that converts the rotational motion of the cord reel body into the reciprocating motion of the cord guide unit and transmits it;
A cord reel comprising: An electric blower,
A cord reel storage space through which wind generated by the operation of the electric blower is guided;
The cord reel according to claim 1 or 2, stored in the cord reel storage space,
Electrical equipment comprising. An electric blower,
A cord reel storage space through which wind generated by the operation of the electric blower is guided;
A cord reel stored in the cord reel storage space;
Comprising
The cord reel is
A string-shaped electric cord;
One end of the electric cord is fixed and has a slant-like cord winding surface inclined with respect to the axis, and a cord winding shaft for winding and holding the electric cord on the cord winding surface, and the cord winding A cord reel body having a pair of flanges provided on both sides of the shaft, and a ventilation hole formed in one of the flanges provided on the side having a small diameter by the inclination of the cord winding surface with respect to the shaft center;
A support portion for rotatably supporting the cord reel body;
The electrical apparatus is arranged so that the flange having the ventilation hole faces the position where the wind generated by the operation of the electric blower is guided.

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