CN218102651U - A can accomodate charging seat for electric mosquito swatter - Google Patents

Abstract

The utility model provides a can accomodate charging seat for electric mosquito swatter, including the charging seat casing, the portion of charging, the power cord of being connected with the portion of charging, and set up the opening that can supply the power line to pass through on the charging seat casing, be equipped with the installation cavity in the charging seat casing, be equipped with the chamber of charging of centre gripping electric mosquito swatter on the charging seat casing, the one end setting of the portion of charging is on the chamber of charging, the other end setting of the portion of charging is on the installation cavity, be equipped with the fixed part in the installation cavity, accomodate the portion, and elasticity portion that resets, fixed part fixed connection is in one side of installation cavity, accomodate the portion and be connected with the fixed part, accomodate the portion and be equipped with the holding chamber, elasticity portion that resets sets up between fixed part and holding chamber, the power is around in accomodating the portion, elasticity portion resets and drives the relative fixed part of accomodating portion clockwise or anticlockwise rotation is in order to switch over the power cord and is in the state. The utility model discloses be difficult to receive the restriction of environment when can making the electric mosquito swatter charge, the charging seat accessible is accomodate the power cord and is practiced thrift the usage space, and reinforcing user's use is experienced.

Description

A can accomodate charging seat for electric mosquito swatter

Technical Field

The utility model relates to a charger technical field specifically is a can accomodate charging seat for electronic mosquito swatter.

Background

In hot summer, it is often bitten by mosquito, but after the bite, the user feels uncomfortable, and various infectious diseases such as dengue fever and influenza are often caused by the mosquito bite. The electric mosquito swatter has the advantages of practicality, convenience, good mosquito killing effect, no chemical pollution, safety, sanitation and the like, and becomes a popular small household appliance product in summer. The charging mode of the existing electric mosquito swatter is mainly characterized in that a rechargeable battery pack and a telescopic charging plug are installed in a handle, the charging plug is directly plugged in a 220V power supply during charging, the charging plug is contracted back into the handle after charging is finished, a power supply socket matched with the charging plug needs to be searched firstly when the charger with the structure is charged, the handle forms a vertical state relative to a horizontal plane, the charging plug can be tightly clamped in the socket of the power supply, the charging mode is quite inconvenient in daily use due to the limitation of application environment, the charging plug is hung in the socket of the power supply in the charging mode for a long time, the charging plug is easy to deform and damage due to stress, the charging function is lost, and the service life of the electric mosquito swatter is influenced.

SUMMERY OF THE UTILITY MODEL

To above-mentioned among the prior art restriction on the electric mosquito swatter application environment inconvenient fairly in daily use, current charge mode influences the technical problem of the life of electric mosquito swatter, the utility model provides a technical scheme that its technical problem adopted is:

the utility model provides a can accomodate charging seat for electric mosquito bat, includes charging seat casing, the portion of charging, with the power cord that the portion of charging is connected, and set up and be in can supply on the charging seat casing the opening that the power cord passes through, be equipped with the installation cavity in the charging seat casing, be equipped with the chamber of charging of centre gripping electric mosquito bat on the charging seat casing, the one end setting of the portion of charging is in on the charging cavity, the other end setting of the portion of charging is in on the installation cavity, be equipped with fixed part, portion of accomodating and the elasticity portion of resetting in the installation cavity, fixed part fixed connection be in one side of installation cavity accomodate portion rotatable coupling in on the fixed part, accomodate the portion and be equipped with the holding chamber and accomodate the chamber, the elasticity portion of resetting sets up the fixed part with between the holding chamber, be equipped with on the fixed part that the power cord passes through, the one end setting of power cord is in accomodate on the chamber and along accomodate chamber center orientation accomodate chamber week side and coil, the other end of power cord is followed the fixed part opening is worn out to the opening is in the opening outside, the power cord extends to drive accomodate the portion relative the fixed part and switch the fixed part is in order to be in order to take over the rotatory state.

In order to fix the elastic reset portion to improve the stability of the elastic reset portion, the fixing portion is provided with a first positioning portion, the accommodating cavity is provided with a second positioning portion, one end of the elastic reset portion is connected with the first positioning portion, and the other end of the elastic reset portion is connected with the second positioning portion.

In order to enable the power line to keep a balanced static state after the power line is stretched or stored, the storage part is provided with a self-locking assembly, the self-locking assembly comprises a self-locking part capable of rotating circumferentially and a limiting elastic part connected with the self-locking part, the fixing part is provided with a positioning groove matched with the self-locking part, and the limiting elastic part is used for enabling the self-locking part to be abutted against the positioning groove for positioning.

In order to keep the power cord in a balanced and static state after the power cord is stretched or stored, the fixing part is also provided with a buffer part connected with the positioning groove.

In order to keep the limit elastic piece and the self-locking part in a stable state, the containing part is further provided with a third positioning part for fixing the limit elastic piece and a limiting part for limiting the self-locking part to move to the side face in an over-position mode.

Have more stable effect of charging in order to make the electric mosquito bat, the portion of charging is including setting up main control board, the setting in the installation intracavity are in charge on the chamber and with the socket that charges that the main control board is connected and with the power contact piece that the main control board is connected, the one end of power cord is equipped with the end of charging, the end of charging sets up accomodate on the chamber, the power contact piece with the end of charging is connected.

In order to ensure that the electric mosquito swatter has a more stable charging effect, the upper end of the fixing part is provided with a fixing part upper cover body, the power supply contact piece is arranged on the inner side of the fixing part upper cover body, and the power supply contact piece is annular.

In order to make the electric mosquito swatter have more stable fixed effect, the chamber of charging is straight type structure, the chamber of charging is used for supporting one side court of electric mosquito swatter the slope of chamber bottom direction of charging.

In order to make the electric mosquito swatter have more stable fixed effect, charging seat casing downside is equipped with the base, the other end of power cord is equipped with the plug end, the base is equipped with and is used for accomodating the chamber is accomodate to the base of plug end.

In order to improve the stability of the charging seat, the base is provided with an anti-skid pad.

The beneficial effects of the utility model are as follows:

1. the utility model discloses a place the electric mosquito in the charging chamber, after the power cord connects the electricity, utilize the charging seat to charge for the electric mosquito, can make the electric mosquito be difficult to receive the restriction of application environment when charging through the extension power cord, strengthened user's use experience; the elastic reset part is reset to drive the accommodating part to rotate relative to the fixing part, so that a power line coiled on the accommodating part is switched to an accommodating state, the charging seat is convenient to accommodate, and the effect of saving the use space is achieved;

2. the utility model discloses the structure is firm, and the stable performance is difficult to cause the damage to the electric mosquito swatter, can not cause the influence to the normal use of electric mosquito swatter.

The present invention will be further described with reference to the accompanying drawings and the detailed description.

Drawings

Fig. 1 is a schematic view of a storable charging seat for an electric mosquito swatter.

Fig. 2 is an exploded view of a storable charging seat for an electric mosquito swatter.

Fig. 3 is a schematic view of a storable charging seat for an electric mosquito swatter according to the present invention.

Fig. 4 isbase:Sub>A sectional view taken along linebase:Sub>A-base:Sub>A of fig. 3.

Fig. 5 is a bottom view of the storage portion of the electric mosquito swatter capable of storing the charging seat.

Fig. 6 is a top view of a fixing portion of the charging seat for an electric mosquito swatter.

Fig. 7 is an inner side view of the cover body on the fixing portion of the chargeable seat of the electric mosquito swatter of the present invention.

Fig. 8 is a bottom view of the base of the charging seat for the electric mosquito swatter of the present invention.

Detailed Description

Embodiments of the present invention will be described in detail below with reference to the accompanying drawings.

As shown in fig. 1, fig. 2, fig. 3 and fig. 4, the storable charging seat for an electric mosquito swatter comprises a charging seat shell 1, a charging part 2, a power line 3 connected with the charging part 2, and an opening 4 arranged on the charging seat shell 1 for the power line 3 to pass through, wherein an installation cavity 11 is arranged in the charging seat shell 1, a charging cavity 5 for clamping the electric mosquito swatter is arranged on the charging seat shell 1, one end of the charging part 2 is arranged on the charging cavity 5, the other end of the charging part 2 is arranged on the installation cavity 11, a fixing part 7, an accommodating part 8 and an elastic reset part 9 are arranged in the installation cavity 11, the fixing part 7 is fixedly connected to one side of the installation cavity 11, the accommodating part 8 is rotatably connected to the fixing part 7, the accommodating part 8 is provided with an accommodating cavity 81 and an accommodating cavity 82, the elastic resetting part 9 is arranged between the fixing part 7 and the accommodating cavity 81, a fixing part opening 74 through which the power line 3 passes is formed in the fixing part 7, one end of the power line 3 is arranged on the accommodating cavity 82 and along the center of the accommodating cavity 82 towards the periphery of the accommodating cavity 82 for coiling, the other end of the power line 3 penetrates out of the fixing part opening 74 to the outer side of the opening 4, the power line 3 extends to drive the accommodating part 8 to be opposite to the fixing part 7, and the elastic resetting part 9 resets to drive the accommodating part 8 to be opposite to the fixing part 7 for rotating to switch the power line 3 to be in an accommodating state. The utility model places the electric mosquito swatter in the charging cavity, when the power line is connected with electricity, the charging seat is utilized to charge the electric mosquito swatter, the electric mosquito swatter is not easily limited by the application environment when being charged by prolonging the power line, and the use experience of users is enhanced; the elastic reset part is used for resetting to drive the accommodating part to rotate relative to the fixing part, so that a power line coiled on the accommodating part is switched to an accommodating state, the charging seat is convenient to accommodate, and the effect of saving the use space is achieved; the utility model discloses the structure is firm, and the stable performance is difficult to cause the damage to the electric mosquito swatter, can not cause the influence to the normal use of electric mosquito swatter.

As shown in fig. 2, 5 and 6, the fixing portion 7 is provided with a first positioning portion 10, the accommodating chamber 81 is provided with a second positioning portion 101, one end of the elastic reset portion 9 is connected to the first positioning portion 10, and the other end of the elastic reset portion 9 is connected to the second positioning portion 101. By adopting the design, the starting end of the elastic reset part is connected with the first positioning part, the tail end of the elastic reset part is connected with the second positioning part, the stability of the elastic reset part can be kept to prevent the deviation of the elastic reset part, preferably, the accommodating cavity and the fixing part are arranged relatively, the first positioning part is arranged at the central position of the fixing part, the second positioning part is arranged at the peripheral side of the accommodating cavity, after one end of the elastic reset part is connected with the first positioning part, the elastic reset part spirally coils towards the peripheral side of the accommodating cavity along the central position of the accommodating cavity until the other end of the elastic reset part is connected with the second positioning part, when the accommodating part is in a static state, the peripheral side of the elastic reset part can abut against the inner peripheral side of the accommodating cavity, when the power cord is pulled, the power cord moves towards the outer side of the accommodating part, the tensile force is greater than the elastic force of the elastic reset part, the power cord drives the accommodating part to rotate so that the elastic reset part compresses the power cord, when the power cord is loosened, the elastic reset part drives the accommodating part to rotate towards the outer side of the accommodating cavity, when the fixing part rotates clockwise, the accommodating cavity, the fixing part pulls the fixing part towards the spiral position of the accommodating cavity, the clockwise, when the accommodating cavity relatively pulls the fixing part rotates.

As shown in fig. 2, 5 and 6, the charging seat capable of being stored for the electric mosquito swatter, the storage part 8 is provided with a self-locking component 12, the self-locking component 12 comprises a self-locking part 121 capable of rotating circumferentially and a limiting elastic part 122 connected with the self-locking part 121, the fixing part 7 is provided with a positioning groove 71 matched with the self-locking part 121, and the limiting elastic part 122 is used for enabling the self-locking part 121 to be abutted against the positioning groove 71 for positioning. By adopting the design, as the containing part rotates relative to the fixing part, certain resistance is generated by the matched connection of the self-locking part and the positioning groove, the power line is enabled to extend or be contained to be in a static state, the positioning effect of the power line is formed, when the limiting elastic part is connected with the self-locking part, the limiting elastic part generates acting force on the self-locking part to enable the self-locking part to be abutted against the positioning groove, when the force for pushing the containing part is larger than the acting force provided by the limiting elastic part on the self-locking part, the self-locking part can enable the containing part to continue rotating through self-rotation to avoid the positioning groove, meanwhile, the limiting elastic part provides acting force on the self-locking part to enable the self-locking part to reset, when the acting force provided by the limiting elastic part on the self-locking part is larger than the force for pushing the containing part, the self-locking part enables the self-locking part to be incapable of rotating and be connected with the positioning groove in a clamping manner, further, in order that the self-locking part can better avoid the positioning groove and complete resetting after self-locking through self-rotation, a matching structure is arranged at the joint of the self-locking part and the limiting elastic part, the self-locking part can be provided with a protruding part, the protruding part can achieve the clamping effect by arranging the shape matched with the protruding part, and the protruding part to perform reciprocating motion.

As shown in fig. 6, in the accomodating charging seat for an electric mosquito swatter, the fixing portion 7 is further provided with a buffering portion 72 connected with the positioning groove 71. Furthermore, the positioning groove, the buffering part and the fixing part are in a stepped structure, when the accommodating part rotates relative to the fixing part, the self-locking part can be in contact with the positioning groove and the buffering part to form certain resistance, and can be clamped at the joint of the buffering part and the fixing part or the joint of the positioning groove and the buffering part, so that the power line is extended or accommodated to be in a static state, and the positioning effect of the power line is formed.

As shown in fig. 5, the storage portion 8 further includes a third positioning portion 13 for fixing the position-limiting elastic member 122, and a position-limiting portion 14 for limiting the lateral over-position movement of the self-locking portion 121. By adopting the design, the third positioning part can fix the limiting elastic part, the limiting elastic part is prevented from being separated from the accommodating part, the limiting part avoids the self-locking part from moving to the side after the self-locking part moves, the limiting elastic part is excessively deformed and cannot be reset, and the limiting elastic part is not contacted with the self-locking part to generate a limiting effect any more.

As shown in fig. 1, fig. 2 and fig. 7, a can accomodate charging seat for electric mosquito swatter, charging portion 2 is including setting up main control board 21 in the installation cavity 11, setting are in on the charging cavity 5 and with the socket 6 that charges that main control board 21 connects and with the power contact piece 22 that main control board 21 connects, the one end of power cord 3 is equipped with the end of charging, the end of charging sets up accomodate on the chamber 82, power contact piece 22 with the end of charging is connected. Adopt such design, after the electric mosquito swatter is connected with the socket that charges, the socket that charges is connected with the power contact piece through the master control board, and the end that charges is connected with the power contact piece and charges in order to realize the electric mosquito swatter, and this kind of mode of charging is simple and convenient, can be through the extension power cord for the electric mosquito swatter charges in the place of keeping away from power supply socket, does not receive the restriction of environment, makes things convenient for daily use.

As shown in FIG. 7, the upper end of the fixing portion 7 is provided with a fixing portion upper cover 73, the power contact sheet 22 is disposed at the inner side of the fixing portion upper cover 73, and the power contact sheet 22 is annular. By adopting the design, the annular power supply contact piece is arranged on the inner side of the upper cover body of the fixing part, when the power line is extended or stored, the rotating storage part can be continuously contacted with the power supply contact piece, and the continuous charging of the electric mosquito swatter is not influenced.

As shown in fig. 1 and 4, the charging seat capable of being stored for the electric mosquito swatter is characterized in that the charging cavity 5 is of a straight structure, and the side face of the charging cavity 5, which is used for supporting the electric mosquito swatter, inclines towards the bottom of the charging cavity 5. Further, the chamber that charges is used for supporting one side of electric mosquito bat from top to bottom and by inboard toward inclining outwards, when electric mosquito bat is connected in the chamber that charges, whole focus can the rebound, adopts such design, can make the whole focus of charging seat keep balance, and the structure is firm can avoid electric mosquito bat to connect and lead to the central antedisplacement to drive the charging seat to lean forward and turn on one's side when charging the chamber.

As shown in fig. 1 and 8, a foldable charging seat for an electric mosquito swatter, wherein a base 15 is arranged on the lower side of the charging seat shell 1, a plug end 31 is arranged at the other end of the power line 3, and a base storage cavity 151 for storing the plug end 31 is arranged on the base 15. Adopt such design, conveniently accomodate the power cord and practice thrift the space.

As shown in FIG. 8, a charging seat for an electric mosquito swatter is provided, and a non-slip mat 152 is provided on the base 15. With such a design, the stability of the charging stand can be improved.

As shown in the fig. 1 and 4, the charging socket 6 is arranged at the bottom of the charging cavity 5. Adopt such design, can guarantee the stability that socket and electronic mosquito that charges are connected.

The implementation of this example is as follows:

as shown in fig. 1 to 8, one end of the power cord 3 is disposed on the receiving cavity 82 and goes clockwise toward the periphery of the receiving cavity 82 along the center of the receiving cavity 82, when the power cord 3 is extended, the power cord 3 is pulled to move toward the outside of the charging seat casing 1, so that the power cord 3 passes through the opening 74 of the fixing portion to the outside of the opening 4, the power cord 3 drives the receiving portion 8 to rotate clockwise relative to the fixing portion 7, at this time, the pulling force is greater than the elastic force of the elastic restoring portion 9, the power cord 3 drives the receiving portion 8 to rotate so that the elastic restoring portion 9 compresses and tightens, when the receiving portion 8 rotates, the self-locking portion 121 contacts with the positioning groove 71, because the pulling force is greater than the pushing force of the limiting elastic member 122 to the self-locking portion 121, the self-locking portion 121 rotates counterclockwise to avoid the positioning groove 71, so that the self-locking portion 121 is separated from the positioning groove 71, at this time, the receiving portion 8 continues to rotate clockwise, the self-locking portion 121 contacts with the buffer portion 72, because the pulling force is greater than the resistance of the buffer part 72 to the self-locking part 121, the accommodating part 8 continues to rotate clockwise and repeats the steps, when the power line 3 is pulled to a required length, the pulling is stopped, the self-locking part 121 is clamped at the joint of the buffer part 72 and the positioning groove 71, the limiting elastic part 122 is connected with the self-locking part 121 and provides pushing force to enable the self-locking part 121 not to rotate counterclockwise so as to avoid the positioning groove 71, at the moment, the accommodating part 8 stops rotating due to the acting force of the elastic resetting part 9 on the accommodating part 8 and the resistance of the positioning groove 71 on the self-locking part 121, after the power line 3 is positioned, the electric mosquito swatter is placed into the charging cavity 5 and is connected with the charging socket 6, the charging socket 6 is connected with the power supply 22 through the main control panel 21, the charging end is connected with the power supply contact piece 22, and after the plug end 31 is connected with the power supply, the electric mosquito swatter is in a charging mode.

After charging, the electric mosquito swatter is separated from the charging cavity 5 and needs to store the power cord 3, the power cord 3 is pulled to the outer side of the charging seat shell 1 first, the self-locking portion 121 is separated from the joint of the buffer portion 72 and the positioning groove 71 through pulling force, the power cord 3 is loosened at the moment, the elastic reset portion 9 is larger than the pulling force of the power cord 3, the elastic reset portion 9 drives the storage portion 8 to rotate anticlockwise relative to the fixing portion 7, the self-locking portion 121 is firstly contacted with the buffer portion 72, the elastic reset portion 9 is larger than the resistance of the buffer portion 72 to the self-locking portion 121, the storage portion 8 continues rotating anticlockwise, when the self-locking portion 121 is contacted with the positioning groove 71, the elastic reset portion 8 is larger than the resistance of the positioning groove 71 to the self-locking portion 121, the self-locking portion 121 rotates clockwise to avoid the positioning groove 71 to separate the self-locking portion 121 from the positioning groove 71, the storage portion 8 continues rotating anticlockwise to rotate repeatedly the above steps, after the elastic reset portion 9 resets, the storage portion 8 is in a static state relative to the fixing portion 7, at the plug end 31 is placed in the base cavity 151, and the storage of the power cord 3 of the charging seat is completed.

The technical contents of the present invention are further described by the above embodiments only, so that the reader can understand the embodiments more easily, but the embodiments of the present invention are not limited to the above embodiments, and any technical extension or re-creation according to the present invention is protected by the present invention. The protection scope of the present invention is subject to the claims.

Claims (10)

1. The utility model provides a can accomodate charging seat for electric mosquito swatter, includes charging seat casing (1), the portion of charging (2), with power cord (3) that portion of charging (2) are connected, and set up and be in can supply on charging seat casing (1) opening (4) that power cord (3) pass through, its characterized in that: the mosquito killer is characterized in that an installation cavity (11) is arranged in the charging seat shell (1), a charging cavity (5) for clamping an electric mosquito swatter is arranged on the charging seat shell (1), one end of a charging part (2) is arranged on the charging cavity (5), the other end of the charging part (2) is arranged on the installation cavity (11), a fixing part (7), a containing part (8) and an elastic resetting part (9) are arranged in the installation cavity (11), the fixing part (7) is fixedly connected to one side of the installation cavity (11), the containing part (8) is rotatably connected to the fixing part (7), the containing part (8) is provided with a containing cavity (81) and a containing cavity (82), the elastic resetting part (9) is arranged between the fixing part (7) and the containing cavity (81), a fixing part opening (74) through which the power line (3) can pass is arranged on the fixing part (7), one end of the power line (3) is arranged on the containing cavity (82) and extends out of the fixing part (7) from the other end of the containing cavity (82) to the other end of the containing cavity (82) and towards the containing cavity (82), the containing cavity (3) is wound around the other end of the containing cavity (3), the elastic reset part (9) resets and drives the storage part (8) to rotate relative to the fixing part (7) so as to switch the power line (3) to be in a storage state.

2. A stowable charging stand for an electric mosquito swatter as claimed in claim 1, wherein: the fixing part (7) is provided with a first positioning part (10), the accommodating cavity (81) is provided with a second positioning part (101), one end of the elastic resetting part (9) is connected with the first positioning part (10), and the other end of the elastic resetting part (9) is connected with the second positioning part (101).

3. A stowable charging stand for an electric mosquito swatter as claimed in claim 1 wherein: the storage part (8) is provided with a self-locking assembly (12), the self-locking assembly (12) comprises a self-locking part (121) capable of rotating circumferentially and a limiting elastic part (122) connected with the self-locking part (121), the fixing part (7) is provided with a positioning groove (71) matched with the self-locking part (121), and the limiting elastic part (122) is used for enabling the self-locking part (121) to be abutted against the positioning groove (71) for positioning.

4. A stowable charging stand for an electric mosquito swatter as claimed in claim 3, wherein: the fixing part (7) is also provided with a buffer part (72) connected with the positioning groove (71).

5. A stowable charging stand for an electric mosquito swatter as claimed in claim 3 wherein: the accommodating part (8) is also provided with a third positioning part (13) for fixing the limiting elastic part (122) and a limiting part (14) for limiting the lateral over-position movement of the self-locking part (121).

6. A stowable charging stand for an electric mosquito swatter as claimed in claim 1 wherein: the charging portion (2) comprises a main control panel (21) arranged in the installation cavity (11), a charging socket (6) connected with the main control panel (21) and a power contact piece (22) connected with the main control panel (21) arranged on the charging cavity (5), a charging end is arranged at one end of the power line (3), the charging end is arranged on the storage cavity (82), and the power contact piece (22) is connected with the charging end.

7. A stowable charging stand for an electric mosquito swatter as claimed in claim 6 wherein: the upper end of the fixing part (7) is provided with a fixing part upper cover body (73), the power supply contact piece (22) is arranged on the inner side of the fixing part upper cover body (73), and the power supply contact piece (22) is annular.

8. A stowable charging stand for an electric mosquito swatter as claimed in claim 1 wherein: the charging cavity (5) is of a straight structure, and one side of the charging cavity (5) used for supporting the electric mosquito swatter inclines towards the bottom of the charging cavity (5).

9. A stowable charging stand for an electric mosquito swatter as claimed in claim 1 wherein: the charging seat is characterized in that a base (15) is arranged on the lower side of the charging seat shell (1), a plug end (31) is arranged at the other end of the power line (3), and a base accommodating cavity (151) for accommodating the plug end (31) is formed in the base (15).

10. A stowable charging stand for an electric mosquito swatter as claimed in claim 9 wherein: and the base (15) is provided with an anti-skid pad (152).

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