CN219918245U - Power cord stopping structure and clothes airing machine - Google Patents

Abstract

The utility model discloses a retaining structure of a power line and a clothes airing machine, comprising the power line, a threading hole arranged on a bottom plate of a shell and a fastening structure; the outer end of the power line is positioned outside the shell, the inner end of the power line is provided with an electric interface and positioned in the shell, and the threading hole is communicated with the inner cavity of the shell and the outer space of the shell; the fastening structure is arranged on the bottom plate of the shell and positioned between the electric interface and the threading hole, and is used for fixing a power line between the threading hole and the electric interface; a blocking piece positioned above the threading hole is arranged on the shell bottom plate, a horizontal channel is formed between the blocking piece and the shell bottom plate, and the blocking piece enables a power line vertically entering the threading hole to be horizontally bent and extend towards the fastening structure direction so as to block the power line outside the threading hole from being plugged into the shell bottom plate; the fastening structure prevents the power cord from being pulled out or broken accidentally, and the blocking piece prevents the power cord from being pulled back into the inner cavity of the shell accidentally, so that the arrangement and operation of all parts of the inner cavity are affected.

Description

Power cord stopping structure and clothes airing machine

Technical Field

The present utility model relates to a clothes airing machine, and more particularly, to a power cord retaining structure of a clothes airing machine, which prevents a power cord exposed outside a casing of the clothes airing machine from being retracted into the casing.

Background

Airing machines are configured as conventional appliances for more and more households.

Structurally, the multifunctional clothes hanger comprises a main machine part fixed on a ceiling and a liftable airing rod positioned on the lower side of the main machine part, wherein power utilization devices such as a driving part, a drying module, a sterilizing lamp and the like are arranged in the main machine part, so that the main machine part is provided with a power supply module and a 220V power supply wire, one end of the power supply wire is connected with the power supply module in a shell of the main machine part, and the other end of the power supply wire is exposed outside the shell. Therefore, the shell is provided with a wire hole for the power supply to enter.

For safety reasons, there is a mandatory safety rule that a binding belt is required to fix the power cord in the casing of the clothes dryer to prevent the power cord from being pulled by an outward pulling force; the pulling force may cause the inner end of the power cord to be separated from the power module, thereby affecting the safety of the electrical appliance.

The positioning structure of the power line solves the problem that the power line is pulled outwards; there is a problem in that the power cord is retracted from the cord hole of the housing, that is, a portion of the exposed power cord is retracted into the housing, and the power cord arches between the cord hole of the housing and the strap position, which may damage the power cord or components inside the housing.

Disclosure of Invention

In view of the technical problem that the power cord is easily withdrawn into the shell accidentally to interfere with the arrangement and operation of internal parts in the prior art, the utility model provides a retaining structure of the power cord of a clothes drying machine, so as to prevent the power cord exposed outside the shell of the clothes drying machine from being retracted into the shell.

The technical scheme of the utility model is as follows: the retaining structure of the power cord comprises the power cord, a threading hole arranged on the bottom plate of the shell and a fastening structure;

the outer end of the power line is positioned outside the shell, the inner end of the power line is provided with an electric interface and positioned in the shell, and the threading hole is communicated with the inner cavity of the shell and the outer space of the shell;

the fastening structure is arranged on the bottom plate of the shell and positioned between the electric interface and the threading hole, and is used for fixing a power line between the threading hole and the electric interface so as to prevent the power line from moving outwards under the action of external force;

a blocking piece positioned above the threading hole is arranged on the bottom plate of the shell, and the blocking piece transversely extends for a certain distance;

a vertical channel for a power line to vertically enter is formed between the blocking piece and the threading hole; a horizontal channel is formed between the blocking piece and the bottom plate of the shell;

the blocking piece enables the power line vertically entering the threading hole to be horizontally bent and extend towards the fastening structure direction so as to prevent the power line outside the threading hole from being accidentally drawn back into the bottom plate of the shell.

The further preferable technical scheme of the utility model is as follows: two ends of the blocking piece vertically extend downwards to form side blocking plates, and the side blocking plates are positioned outside the threading holes;

the back end of the blocking piece is connected with the bottom plate through an inclined plate, and two sides of the inclined plate are connected with the side blocking plates.

The further preferable technical scheme of the utility model is as follows: the fastening structure comprises a base and a pressing plate which are integrally arranged on the bottom plate of the shell, wherein the pressing plate is connected to the base through a screw, and a through hole for binding the power line is formed;

the outlet of the horizontal channel is aligned with the perforation.

The further preferable technical scheme of the utility model is as follows: the fastening formation is adjacent the barrier;

a supporting piece for supporting the power line is arranged from the outlet of the horizontal channel to the lower part of the perforation;

the support comprises a transverse plate and a plurality of vertical plates erected on the transverse plate, and the vertical plates are distributed at intervals.

The further preferable technical scheme of the utility model is as follows: the inclined plate is in arc transition with the inner wall of the blocking piece so as to be matched with the arc surface of the power line.

The further preferable technical scheme of the utility model is as follows: and an inclined channel for guiding the power line to be inserted is formed between the inclined plate and the side blocking plate.

Another preferred subject matter: the retaining structure of the power cord comprises the power cord, a threading hole arranged on the bottom plate of the shell and a fastening structure;

the outer end of the power line is positioned outside the shell, the inner end of the power line is provided with an electric interface and positioned in the shell, and the threading hole is communicated with the inner cavity of the shell and the outer space of the shell;

the fastening structure is arranged on the bottom plate of the shell and positioned between the electric interface and the threading hole, and is used for fixing a power line between the threading hole and the electric interface;

the casing bottom plate is provided with a blocking piece positioned above the threading hole, a horizontal channel is formed between the blocking piece and the casing bottom plate, and the blocking piece enables a power line vertically entering the threading hole to be horizontally bent and extend towards the fastening construction direction so as to block the power line outside the threading hole from being plugged into the casing bottom plate.

The further preferable technical scheme of the utility model is as follows: the housing floor is connected to the blocking element by means of an inclined plate.

The further preferable technical scheme of the utility model is as follows: the fastening structure comprises a base and a pressing plate which are integrally arranged on the bottom plate of the shell, wherein the pressing plate is connected to the base through screws, and a through hole for fixing the power line is formed.

The further preferable technical scheme of the utility model is as follows: two ends of the blocking piece vertically extend downwards to form side blocking plates, and the side blocking plates are positioned outside the threading holes;

the rear end of the blocking piece is connected with the bottom plate through the inclined plate, and two sides of the inclined plate are connected with the side blocking plates.

The further preferable technical scheme of the utility model is as follows: the fastening structure is adjacent to the blocking member so that the blocking member and the power cord below the fastening structure are parallel to the lateral section of the housing floor;

a supporting piece for supporting the power line is arranged from the outlet of the horizontal channel to the lower part of the perforation;

the support comprises a transverse plate and a plurality of vertical plates erected on the transverse plate, and the vertical plates are distributed at intervals.

The further preferable technical scheme of the utility model is as follows: the inclined plate is in arc transition with the inner wall of the blocking piece so as to be matched with the arc surface of the power line;

and an inclined channel for guiding the power line to be inserted is formed between the inclined plate and the side blocking plate.

Compared with the prior art, the utility model has the advantages that: and a fastening structure is fixed at the position between the threading hole and the electric interface for tightening and fixing the power line connected into the inner cavity of the shell, so that the power line is prevented from being pulled outwards accidentally. Moreover, be equipped with the barrier that is located the through wires hole top on the casing bottom plate, the existence of barrier avoids the power cord to be retracted into the casing inner chamber by accident.

A vertical channel is formed between the blocking piece and the longitudinal direction of the bottom plate so as to penetrate a power supply line; furthermore, the barrier extends laterally a distance to form a horizontal channel subsequent to the vertical channel; the blocking piece changes the extending path of the power line penetrating vertically, so that the power line penetrating vertically into the threading hole is horizontally bent and extends towards the fastening structure direction, and the power line outside the threading hole is blocked from being plugged into the bottom plate of the shell.

The retaining structure in the embodiment prevents the power cord from being pulled out and broken accidentally based on the fastening structure, and further prevents the power cord from being pulled back into the inner cavity of the shell accidentally based on the blocking piece, so that arrangement and operation of all parts of the inner cavity are affected. Therefore, the application of the power line in the scene of perforation is greatly optimized, and the stable wiring of the power line is prevented from being influenced by perforation design on the host shell.

Drawings

The utility model will be described in further detail below in connection with the drawings and the preferred embodiments, but it will be appreciated by those skilled in the art that these drawings are drawn for the purpose of illustrating the preferred embodiments only and thus should not be taken as limiting the scope of the utility model. Moreover, unless specifically indicated otherwise, the drawings are merely schematic representations, not necessarily to scale, of the compositions or constructions of the described objects and may include exaggerated representations.

FIG. 1 is a schematic diagram of a partial structure of the inside of a main machine part of a clothes drying machine;

FIG. 2 is a schematic view of a partial structure of the bottom of a main machine part of the airing machine;

FIG. 3 is a schematic diagram of a part of the inside of a main machine part of the clothes drying machine;

FIG. 4 is an enlarged view of a partial structure of the retaining structure of the power cord;

fig. 5 is an enlarged view of a partial structure at a in fig. 1 of the present embodiment;

fig. 6 is an enlarged view of a partial structure at B in fig. 2 of the present embodiment;

fig. 7 is an enlarged view of a partial structure at C in fig. 3 of the present embodiment.

Detailed Description

Preferred embodiments of the present utility model will be described in detail below with reference to the accompanying drawings. Those skilled in the art will appreciate that these descriptions are merely illustrative, exemplary, and should not be construed as limiting the scope of the utility model.

It should be noted that: like reference numerals denote like items in the following figures, and thus once an item is defined in one figure, it may not be further defined and explained in the following figures.

In the description of the present utility model, it should be noted that, the azimuth or positional relationship indicated by the terms "front", "rear", etc. are based on the azimuth or positional relationship shown in the drawings, or the azimuth or positional relationship in which the inventive product is conventionally put in use, are merely for convenience of describing the present utility model and simplifying the description, and are not indicative or implying that the apparatus or element to be referred to must have a specific azimuth, be configured and operated in a specific azimuth, and therefore, should not be construed as limiting the present utility model.

As shown in fig. 1 to 3, the main machine part of the airing machine comprises a shell 10 and various parts installed in the shell 10, including a power source, an electric device and the like. Based on the fact that the electric devices in the shell 10 need to use the indoor power supply outside the shell 10, the bottom of the shell 10 needs to be provided with the threading hole 12, so that the power wire s can pass through the threading hole 12, and the electric connection between the electric devices in the shell 10 and the indoor power supply outside the shell 10 is achieved.

However, the power cord s is easily pulled outward or retracted inward by accident after passing through the threading hole 12. The power line s is pulled outwards to easily break the connector of the power line s, and the power line s is retracted inwards to easily interfere with the arrangement or operation of each part in the shell 10. Therefore, the utility model designs a stop structure which not only can prevent the power line s from being pulled outwards, but also can prevent the power line s from retracting inwards. The specific technical scheme is as follows:

as shown in fig. 4, 5 and 7, the retaining structure 100 of the power cord includes a power cord s for connecting the indoor power source and the electric devices in the inner cavity of the housing, a threading hole 12 formed at a proper position on the bottom plate 11 of the housing 10, and a fastening structure 30 for fastening the power cord s. The fastening arrangement 30 prevents the power cord s from being pulled outwards by accident.

The outer end of the power line s is located outside the housing 10 to connect to an indoor power source. The inner end of the power cord s is provided with an electrical interface and is located within the housing 10 to facilitate connection of the electrical devices within the interior cavity of the housing 10. And the threading hole 12 communicates with the inner cavity of the housing 10 and the space outside the housing so as to facilitate the passage of the power cord s.

The fastening structure 30 is fixedly connected to the bottom plate 11 of the housing and is located between the electrical interface and the threading hole 12, and the fastening structure 30 is used for fixing the power cord s between the threading hole 12 and the electrical interface so as to prevent the power cord s from moving outwards under the action of external force.

Preferably, the fastening formation 30 in this embodiment is fixed at a position close to the threading hole 12, i.e. the fastening formation 30 is remote from the inner end electrical interface of the power cord s. So that the power line s is tightened at the inlet end of the housing 10, and the tightening force is prevented from affecting the electrical connection effect of the electrical interface at the inner end of the power line s (the tightening force of the power line s may cause the electrical interface at the inner end of the power line s to be accidentally disengaged or the electrical connection to be unstable).

Further, a blocking member 23 is disposed on the bottom plate 11 of the housing 10 of this embodiment above the threading hole 12, and the blocking member 23 extends transversely a distance.

A vertical channel h1 for the vertical entry of the power supply line s is formed between the blocking piece 23 and the threading hole 12; a horizontal passage h2 is formed between the blocking member 23 and the housing floor 11.

The blocking member 23 horizontally bends the power cord s vertically entering the threading hole 12 and extends toward the fastening structure 30 to block the power cord s outside the threading hole 12 from being accidentally drawn back into the bottom plate 11 of the housing 10. The power cord s enters along the vertical channel h1, turns upon encountering the stop 23 arranged above the threading hole 12 and continues to extend along the horizontal channel h2 until it passes out of the outlet of the horizontal channel h2 and further into the perforations of the fastening formation 30.

The utility model has the advantages that the fastening structure 30 is fixed at the position between the threading hole 12 and the electric interface for tightening and fixing the power wire s connected into the inner cavity of the shell, so as to prevent the power wire s from being pulled outwards accidentally. Moreover, the bottom plate 11 of the shell is provided with a blocking piece 23 positioned above the threading hole 12, and the blocking piece 23 prevents the power wire s from being accidentally retracted into the inner cavity of the shell 10.

A vertical channel h1 is formed between the barrier 23 and the longitudinal direction of the base plate 11 to be penetrated by the power line s; furthermore, the blocking piece 23 extends laterally a distance to form a horizontal channel h2 following the vertical channel h1; the blocking member 23 changes the extending path of the vertically penetrating power line s so that the power line s vertically penetrating the threading hole 12 is horizontally bent and extends toward the fastening construction direction to block the power line s outside the threading hole 12 from being plugged into the inside of the housing bottom plate 11.

The retaining structure in this embodiment prevents the power cord s from being pulled out or broken by accident based on the fastening structure 30, and further prevents the power cord s from being pulled back into the housing cavity by accident based on the blocking member 23, which would affect the arrangement and operation of the components of the cavity. Therefore, the application of the power line s in the scene of perforation is greatly optimized, and the stable wiring of the power line is prevented from being influenced by perforation design on the host shell.

Further, both ends of the stopper 23 in the present embodiment are extended vertically downward to form side rails 21, and the side rails 21 are located outside the threading holes 12.

Further, the rear end of the stopper 23 is connected to the bottom plate 11 by an inclined plate 22, and both sides of the inclined plate 22 are connected to the side rail 21.

Preferably, the blocking member 23 is a blocking cross plate which is transversely distributed, the inclined plate 22, the side blocking plate 21 and the blocking cross plate enclose a trapezoid table structure, and an outlet, that is, an outlet of the horizontal channel h2 is formed at the front end of the trapezoid table structure.

Wherein, the concave-convex shape of the bottom of the side barrier 21 is matched with the concave-convex structure of the corresponding bottom plate 11. The rear end of the inclined plate 22 and the bottom plate 11 are in continuous transition, preferably smooth transition, so that unnecessary concave areas which are easy to store dirt and dirt are avoided between the inclined plate 22 and the bottom plate 11.

Further, it is preferable that the fastening structure 30 includes a base 31 and a pressing plate 32 integrally provided on the housing floor 11, the pressing plate 32 being connected to the base 31 by a screw t. A through hole 33 for fixing and binding the power line s is formed between the base 31 and the pressing plate 32. Wherein the pressing plate 32 presses the power line s thereunder from top to bottom. Preferably, the base 31 comprises a bottom block and uprights on either side of the bottom block, which also exert an inward binding and fixing action on the power line s. The upright posts and the pressing plate 32 are fixedly connected through screws t.

The outlet of the horizontal channel h2 is aligned with the perforation 33 to allow the power supply line s to pass smoothly laterally. And facilitates the passage of the power cord s through the horizontal passage h2 and then into the through hole 33.

Preferably, the fastening formation 30 is adjacent to the barrier 23. In addition, a support 40 supporting the power line s is provided from the outlet of the horizontal passage h2 to below the penetration hole 33.

The support 40 includes a lateral plate 41 and a plurality of vertical plates 42 erected on the lateral plate 41, the vertical plates 42 being spaced apart.

Correspondingly, the power line s below the blocking member 23 and the fastening formation 30 is in a transverse section s1 parallel to the housing floor 11. At this time, the supporting member 40 can effectively perform a vertical supporting function on the transverse section, so as to ensure that the fixing force and the binding force on the power line s are more concentrated, and avoid the collapse of the power line s, and the acting force loss of the blocking member 23 and the fastening structure 30 on the power line s is avoided.

Preferably, the inclined plate 22 of the present embodiment is arc-shaped to transition with the inner wall of the blocking member 23 to match the arc-shaped surface of the power line s. Ensuring smooth transition of the power line s.

As shown in fig. 6, a guide power line s is formed between the inclined plate 22 and the side rail 21 to be inserted into the inclined passage h3.

The power cord stopping structure and the clothes airing machine provided by the utility model are described in detail, and specific examples are applied to explain the principle and the implementation mode of the utility model, and the description of the examples is only used for helping to understand the utility model and the core idea. It should be noted that it will be apparent to those skilled in the art that various modifications and adaptations of the utility model can be made without departing from the principles of the utility model and these modifications and adaptations are intended to be within the scope of the utility model as defined in the following claims.

Claims (13)

1. The retaining structure of power cord, its characterized in that:

comprises a power line, a threading hole arranged on a bottom plate of the shell and a fastening structure;

the outer end of the power line is positioned outside the shell, the inner end of the power line is provided with an electric interface and positioned in the shell, and the threading hole is communicated with the inner cavity of the shell and the outer space of the shell;

the fastening structure is arranged on the bottom plate of the shell and positioned between the electric interface and the threading hole, and is used for fixing a power line between the threading hole and the electric interface so as to prevent the power line from moving outwards under the action of external force;

a blocking piece positioned above the threading hole is arranged on the bottom plate of the shell, and the blocking piece transversely extends for a certain distance;

a vertical channel for a power line to vertically enter is formed between the blocking piece and the threading hole; a horizontal channel is formed between the blocking piece and the bottom plate of the shell;

the blocking piece enables the power line vertically entering the threading hole to be horizontally bent and extend towards the fastening structure direction so as to prevent the power line outside the threading hole from being accidentally drawn back into the bottom plate of the shell.

2. The backstop construction of a power cord according to claim 1, wherein: two ends of the blocking piece vertically extend downwards to form side blocking plates, and the side blocking plates are positioned outside the threading holes;

the back end of the blocking piece is connected with the bottom plate through an inclined plate, and two sides of the inclined plate are connected with the side blocking plates.

3. The backstop construction of a power cord according to claim 1, wherein: the fastening structure comprises a base and a pressing plate which are integrally arranged on the bottom plate of the shell, wherein the pressing plate is connected to the base through a screw, and a through hole for binding the power line is formed;

the outlet of the horizontal channel is aligned with the perforation.

4. The backstop construction of a power cord according to claim 1, wherein: the fastening formation is adjacent the barrier;

a supporting piece for supporting the power line is arranged from the outlet of the horizontal channel to the lower part of the perforation;

the support comprises a transverse plate and a plurality of vertical plates erected on the transverse plate, and the vertical plates are distributed at intervals.

5. The backstop construction of a power cord according to claim 2, wherein: the inclined plate is in arc transition with the inner wall of the blocking piece so as to be matched with the arc surface of the power line.

6. The backstop construction of a power cord according to claim 2, wherein: and an inclined channel for guiding the power line to be inserted is formed between the inclined plate and the side blocking plate.

7. The retaining structure of power cord, its characterized in that:

comprises a power line, a threading hole arranged on a bottom plate of the shell and a fastening structure;

the outer end of the power line is positioned outside the shell, the inner end of the power line is provided with an electric interface and positioned in the shell, and the threading hole is communicated with the inner cavity of the shell and the outer space of the shell;

the fastening structure is arranged on the bottom plate of the shell and positioned between the electric interface and the threading hole, and is used for fixing a power line between the threading hole and the electric interface;

the casing bottom plate is provided with a blocking piece positioned above the threading hole, a horizontal channel is formed between the blocking piece and the casing bottom plate, and the blocking piece enables a power line vertically entering the threading hole to be horizontally bent and extend towards the fastening construction direction so as to block the power line outside the threading hole from being plugged into the casing bottom plate.

8. The backstop construction of a power cord as set forth in claim 7, wherein:

the housing floor is connected to the blocking element by means of an inclined plate.

9. The backstop construction of a power cord as set forth in claim 7, wherein:

the fastening structure comprises a base and a pressing plate which are integrally arranged on the bottom plate of the shell, wherein the pressing plate is connected to the base through screws, and a through hole for fixing the power line is formed.

10. The backstop construction of a power cord as set forth in claim 8, wherein:

two ends of the blocking piece vertically extend downwards to form side blocking plates, and the side blocking plates are positioned outside the threading holes;

the rear end of the blocking piece is connected with the bottom plate through the inclined plate, and two sides of the inclined plate are connected with the side blocking plates.

11. The backstop construction of a power cord as set forth in claim 7, wherein: the fastening structure is adjacent to the blocking member so that the blocking member and the power cord below the fastening structure are parallel to the lateral section of the housing floor;

a supporting piece for supporting the power line is arranged from the outlet of the horizontal channel to the lower part of the perforation;

the support comprises a transverse plate and a plurality of vertical plates erected on the transverse plate, and the vertical plates are distributed at intervals.

12. The backstop construction of a power cord as set forth in claim 7, wherein: the inclined plate is in arc transition with the inner wall of the blocking piece so as to be matched with the arc surface of the power line;

and an inclined channel for guiding the power line to be inserted is formed between the inclined plate and the side blocking plate.

13. Airing machine, its characterized in that: a backstop construction comprising a power cord as claimed in any one of claims 1-12.