CN221080933U - Chargeable power supply device and toilet lid - Google Patents

Abstract

The utility model discloses a rechargeable power supply device and a toilet cover, wherein the rechargeable power supply device comprises a bottom box arranged in a base, an upper cover arranged on the upper part of the bottom box, a power supply piece arranged between the bottom box and the upper cover, a butt-inserting connecting piece, a lower cover and a receiving coil, wherein one end of the butt-inserting connecting piece is connected with an electrode of the power supply piece, the other end of the butt-inserting connecting piece extends out of the bottom box, the receiving coil can be electrically connected with the power supply piece, a first parting bead is arranged in a receiving groove, the power supply piece can be placed on the first parting bead, a second parting bead is further arranged on the inner wall of the receiving groove, and the side part of the power supply piece can be abutted against the inner side part of the second parting bead. The toilet lid comprises a rechargeable power supply device as described above. The utility model can independently supply power to the toilet cover, and has convenient installation and high safety.

Description

Chargeable power supply device and toilet lid

Technical Field

The utility model relates to the technical field of toilet lids, in particular to a chargeable power supply device and a toilet lid.

Background

The intelligent toilet cover is a toilet seat integrated with various intelligent functions, such as heating the seat, drying by warm air, automatic cleaning, etc. The implementation of these functions requires power to the toilet lid and ease of installation and connection to a power source. The intelligent toilet lid in the market generally uses external alternating current power to supply power, converts alternating current of a household power grid into direct current suitable for the intelligent toilet lid when in use, and is connected with the electric tail ends of a heating ring, a motor, a flushing valve and the like in the intelligent toilet lid through a main control board to form a power supply circuit. However, this type of power supply and configuration requires the placement and connection of power lines, which adds to the complexity and cost of installation, and may be more difficult, particularly for older buildings. In addition, the normal operation of the intelligent toilet lid depends on the stable power supply of the home power grid. If the household power grid fails or fails, the intelligent toilet cover cannot work normally, inconvenience is brought to users, and the power supply circuit of the intelligent toilet cover is exposed indoors, and if the circuit is improperly installed or damaged, potential safety hazards such as circuit short circuit and electric leakage can be caused.

Disclosure of utility model

The utility model aims to solve the technical problem of providing the rechargeable power supply device which can independently supply power to the toilet cover, is convenient to install and has high safety.

In order to solve the technical problems, the utility model provides a rechargeable power supply device which is fixed in a base of a toilet cover and comprises a bottom box arranged in the base, an upper cover arranged on the upper part of the bottom box and a power supply piece arranged between the bottom box and the upper cover, wherein a containing groove is arranged in the bottom box, the power supply piece is arranged in the containing groove, and the upper cover can cover a notch of the containing groove.

The plug-in type power supply device comprises a bottom box and is characterized by further comprising a plug-in connecting piece, wherein the plug-in connecting piece is fixed on the side wall of the bottom box, one end of the plug-in connecting piece is connected with an electrode of the power supply piece, and the other end of the plug-in connecting piece extends out of the bottom box.

The power supply device comprises a power supply piece, a power supply coil, a lower cover and a receiving coil, wherein the power supply piece is arranged on the lower cover, the lower cover is arranged between the power supply piece and the upper cover, the receiving coil is fixed on one side, close to the power supply piece, of the lower cover, and the receiving coil can be electrically connected with the power supply piece.

As the improvement of above-mentioned scheme, be equipped with first parting bead in the holding tank, first parting bead quantity be a plurality of and interval distribution in the bottom of holding tank, first parting bead up protruding in the bottom of holding tank, the power spare can place in on the first parting bead.

As an improvement of the scheme, a drainage heat extraction groove is formed at the bottom of the accommodating groove adjacent to the first parting bead, a plurality of first hydrophobic heat dissipation holes penetrating through the bottom of the accommodating groove are formed in the drainage heat extraction groove, and the longitudinal section of each first hydrophobic heat dissipation hole is in an inverted cone shape with the upper part wide and the lower part narrow.

As the improvement of above-mentioned scheme, the inner wall of holding tank still is equipped with the second parting bead, the vertical setting of second parting bead and protrusion in the inner wall around the holding tank, the lateral part of power spare can the butt in the medial part of second parting bead.

As an improvement of the above-mentioned scheme, a guiding inclined plane is arranged on one side of the upper part of the second parting bead, which is close to the center of the accommodating groove, and the guiding inclined plane gradually inclines from top to bottom from a position far away from the center of the accommodating groove to a direction close to the center of the accommodating groove.

As the improvement of above-mentioned scheme, the inner wall of holding tank still is equipped with the hydrophobic louvre of second, the hydrophobic louvre of second is located adjacent between the second parting bead, the hydrophobic louvre of second from top to bottom slope run through in the lateral wall of end box.

As the improvement of above-mentioned scheme, the upper portion of end box is equipped with the fixed plate, the fixed plate is followed the outer wall of end box stretches out, be equipped with the fixed slot on the base, end box can insert in the fixed slot, the fixed plate can the butt in the notch edge of fixed slot.

As an improvement of the scheme, the fixing plate is provided with a first through hole, the edge of the notch of the fixing groove is provided with a first fixing hole, and the position of the first through hole can correspond to the position of the first fixing hole.

As the improvement of above-mentioned scheme, the end box still includes the connecting plate, the connecting plate is followed the fixed plate upwards protrudes, the upper cover include main apron and set up in main apron all around side cap board, side cap board downwards protruding in main apron, be equipped with the second via hole on the side cap board, be equipped with the second fixed orifices on the connecting plate, the position of second via hole can with the position correspondence of second fixed orifices.

The utility model also provides a toilet cover which comprises the rechargeable power supply device.

The implementation of the utility model has the following beneficial effects:

The rechargeable power supply device is provided with a bottom box, an upper cover and a power supply piece, wherein the bottom box is fixed on a base of a toilet cover, the power supply piece is fixed in the bottom box, and the upper cover is used for closing the bottom box. The rechargeable power supply device further comprises a lower cover and a receiving coil, wherein the receiving coil is connected with the power supply piece, the receiving coil is used for wirelessly charging the power supply piece, the supplementing of electric energy can be achieved without removing the power supply piece, the use is convenient, and the lower cover and the upper cover can ensure better waterproof performance and high safety.

Drawings

Fig. 1 is a schematic view of the structure of a rechargeable power supply device of the present utility model;

FIG. 2 is a schematic diagram of a detachable structure of the rechargeable power supply device of the present utility model;

FIG. 3 is a schematic view of the structure of the bottom case of the present utility model;

FIG. 4 is a schematic view of a partial cross-sectional structure of the bottom case of the present utility model;

fig. 5 is a schematic view of the structure of the upper cover of the present utility model.

Detailed Description

The present utility model will be described in further detail with reference to the accompanying drawings, for the purpose of making the objects, technical solutions and advantages of the present utility model more apparent. It is only stated that the terms of orientation such as up, down, left, right, front, back, inner, outer, etc. used in this document or the imminent present utility model, are used only with reference to the drawings of the present utility model, and are not meant to be limiting in any way.

Referring to fig. 1 and 2, the embodiment of the utility model discloses a rechargeable power supply device, which is fixed in a base 7 of a toilet cover, wherein the base 7 is a part where a hinge structure of the toilet cover is located, the rechargeable power supply device comprises a bottom box 1 arranged in the base 7, an upper cover 2 arranged at the upper part of the bottom box 1, and a power supply piece 3 arranged between the bottom box 1 and the upper cover 2, the bottom box 1 is fixed in the base 7, the bottom box 1 is used for installing the power supply piece 3, and the upper cover 2 is used for forming a seal for the bottom box 1, so that the waterproof, dustproof and safety are ensured. The bottom box 1 is internally provided with a containing groove 11, the power supply piece 3 is placed in the containing groove 11, and the upper cover 2 can cover the notch of the containing groove 11, so that a seal is formed. In order to supply power to the electric components such as the heating seat ring, the rotating motor and the electronic valve in the toilet cover, the rechargeable power supply device further comprises an inserting connecting piece 4, the inserting connecting piece 4 is fixed on the side wall of the bottom box 1, one end of the inserting connecting piece 4 is connected with the electrode of the power supply piece 3, the other end of the inserting connecting piece extends out of the bottom box 1, the inserting connecting piece 4 is preferably waterproof, a male head or a female head can be used, and when the rechargeable power supply device is installed, only a wire plug integrated by a wire of the electric component is required to be inserted into the inserting connecting piece 4, so that the rechargeable power supply device is convenient to install and detach. In addition, in order to facilitate charging and promote sealed waterproof nature, chargeable power supply unit still includes lower cover 5 and receiving coil 6, lower cover 5 locates between power spare 3 with upper cover 2, receiving coil 6 is fixed in be close to in the lower cover 5 one side of power spare 3, receiving coil 6 can with power spare 3 electricity is connected, after covering lower cover 5, holding tank 11 obtains better waterproof dirt-proof leakproofness, moreover after power spare 3 consumes the electric energy, can directly use wireless charging device to place on upper cover 2, wireless charging device has charging coil, can with receiving coil 6 cooperation produces wireless charging effect, can charge for power spare 3. The power supply piece 3 or the bottom box 1 is not required to be dismantled during charging, the use is convenient, the sealing of the inside can be ensured to the greatest extent, and the entry of water vapor is prevented.

The embodiment of the utility model has the following beneficial effects:

The rechargeable power supply device provided by the embodiment of the utility model is provided with a bottom box 1, an upper cover 2 and a power supply piece 3, wherein the bottom box 1 is fixed on a base 7 of a toilet cover, the power supply piece 3 is fixed in the bottom box 1, and the upper cover 2 is used for closing the bottom box 1. The side wall of the bottom box 1 is provided with the opposite plug-in connector 4, the opposite plug-in connector 4 is used for connecting the power supply piece 3 with electric components such as a seat ring heating belt and a motor in a toilet cover, the power supply piece 3 can independently supply power to the electric components, so that an extra external circuit is not required to be connected with an external power supply, the complexity and the cost of installation are reduced, the rechargeable power supply device further comprises a lower cover 5 and a receiving coil 6, the receiving coil 6 is connected with the power supply piece 3, the receiving coil 6 is used for wirelessly charging the power supply piece 3, the electric energy can be supplemented without removing the power supply piece 3, the use is convenient, and the lower cover 5 and the upper cover 2 can ensure better waterproof performance and high safety.

Specifically, referring to fig. 3, in order to achieve better waterproof performance, a first division bar 12 is disposed in the accommodating groove 11, the number of the first division bars 12 is multiple and is distributed at intervals at the bottom of the accommodating groove 11, the first division bars 12 can isolate the power supply piece 3 from the bottom of the accommodating groove 11, when the accommodating groove 11 is filled with water or the fixing groove 71 of the base 7 is filled with water, the water is not easy to contact with the power supply piece 3, the first division bars 12 protrude upwards from the bottom of the accommodating groove 11, and the power supply piece 3 can be placed on the first division bars 12, so that a certain height difference is formed to generate an isolation effect. The first partition strips 12 and the bottom of the accommodating groove 11 are adjacent to each other to form a drainage heat extraction groove 13, a plurality of first drainage heat extraction holes 111 penetrating through the bottom of the accommodating groove 11 are formed in the drainage heat extraction groove 13, the first drainage heat extraction holes 111 are used for extracting water entering the accommodating groove 11 and also used for dissipating heat from the power supply piece 3, heat can be extracted from the first drainage heat extraction holes 111, in addition, the longitudinal section of the first drainage heat extraction holes 111 is in an inverted cone shape with wide upper part and narrow lower part, so that water is difficult to enter the drainage heat extraction groove 13 from the outside through the first drainage heat extraction holes 111, and the drainage heat extraction device has a high waterproof effect and also has a heat extraction function.

The inner wall of the accommodating groove 11 is further provided with a second parting bead 14, the second parting bead 14 is vertically arranged and protrudes out of the inner wall around the accommodating groove 11, and the side part of the power supply piece 3 can be abutted to the inner side part of the second parting bead 14. The second parting bead 14 can isolate the power supply piece 3 from the side wall of the accommodating groove 11, so that water is prevented from contacting the power supply piece 3 when entering the accommodating groove 11, and heat dissipation is facilitated, and in addition, the second parting bead 14 can guide water to guide the water entering the accommodating groove 11 into the drainage heat extraction groove 13. A guiding inclined plane 141 is provided on one side of the upper portion of the second division bar 14 near the center of the accommodating groove 11, and the guiding inclined plane 141 is gradually inclined from top to bottom from a position far from the center of the accommodating groove 11 toward a direction near the center of the accommodating groove 11. The inclined guiding inclined plane 141 is beneficial to guiding water, and meanwhile, when the power supply member 3 is placed in the water supply device, the guiding inclined plane 141 can also guide the power supply member 3 to slide towards the middle part of the accommodating groove 11, so that convenience in installation is improved.

Referring to fig. 3 and 4, the base 7 is a relatively closed space, and in order to further improve heat dissipation performance, the inner wall of the accommodating groove 11 is further provided with a second hydrophobic heat dissipation hole 112, the second hydrophobic heat dissipation hole 112 is disposed between two adjacent second parting strips 14, and the second hydrophobic heat dissipation hole 112 is obliquely penetrating through the side wall of the bottom case 1 from top to bottom. The second hydrophobic heat dissipation holes 112 have a function of discharging heat, and at the same time, water flowing in along the inner wall of the accommodating groove 11 can be discharged, and because the second hydrophobic heat dissipation holes 112 are obliquely arranged, external water is difficult to enter the accommodating groove 11 through the second hydrophobic heat dissipation holes 112, and at the same time, a waterproof effect is achieved.

In order to fix the bottom box 1, a fixing plate 15 is arranged at the upper part of the bottom box 1, the fixing plate 15 extends out of the outer wall of the bottom box 1, a fixing groove 71 is arranged on the base 7, the bottom box 1 can be inserted into the fixing groove 71 to be installed, and the fixing plate 15 can be abutted to the notch edge of the fixing groove 71. The fixing plate 15 is provided with a first via hole 151, the edge of the notch of the fixing groove 71 is provided with a first fixing hole 711, the position of the first via hole 151 can correspond to the position of the first fixing hole 711, and the fixing plate 15 and the notch of the fixing groove 71 can be connected and fixed by using a fastener such as a screw.

Referring to fig. 5, the bottom case 1 further includes a connecting plate 16, the connecting plate 16 protrudes upwards from the fixing plate 15, the upper cover 2 includes a main cover plate 21 and a side cover plate 22 disposed around the main cover plate 21, the side cover plate 22 protrudes downwards from the main cover plate 21, a second through hole 221 is disposed on the side cover plate 22, a second fixing hole 161 is disposed on the connecting plate 16, a position of the second through hole 221 can correspond to a position of the second fixing hole 161, the upper cover 2 and the bottom case 1 can be fixed by using fasteners such as screws, and the fixed position is located on the vertical side cover plate 22, so that water is not easy to enter even if the screws are driven, and the bottom case has better water resistance.

The embodiment of the utility model also discloses a toilet lid (not shown in the figure) comprising the rechargeable power supply device 10 as described above. The rechargeable power supply device 10 is fixed in the base 7 of the toilet lid, specifically in the fixing groove 71 of the base 7. The rechargeable power supply device is provided with a bottom box 1, an upper cover 2 and a power supply piece 3, wherein the bottom box 1 is fixed on a base 7 of a toilet cover, the power supply piece 3 is fixed in the bottom box 1, and the upper cover 2 is used for sealing the bottom box 1. The side wall of the bottom box 1 is provided with the opposite plug-in connector 4, the opposite plug-in connector 4 is used for connecting the power supply piece 3 with electric components such as a seat ring heating belt and a motor in the toilet cover, the power supply piece 3 can independently supply power to the electric components, so that an extra external circuit is not required to be connected with an external power supply, the complexity and the cost of installation are reduced, the rechargeable power supply device further comprises a lower cover 5 and a receiving coil 6, the receiving coil 6 is connected with the power supply piece 3, the receiving coil 6 is used for wirelessly charging the power supply piece 3, the electric energy can be supplemented without dismantling the power supply piece 3, the use is convenient, and the lower cover 5 and the upper cover 2 can ensure excellent waterproof performance and high safety.

The foregoing is a preferred embodiment of the present utility model and it should be noted that modifications and adaptations to those skilled in the art may be made without departing from the principles of the present utility model and are intended to be comprehended within the scope of the present utility model.

Claims (10)

1. The rechargeable power supply device is fixed in a base of a toilet cover and is characterized by comprising a bottom box arranged in the base, an upper cover arranged on the upper part of the bottom box and a power supply piece arranged between the bottom box and the upper cover, wherein a containing groove is arranged in the bottom box, the power supply piece is arranged in the containing groove, and the upper cover can cover a notch of the containing groove;

The device also comprises an opposite plug-in connector, wherein the opposite plug-in connector is fixed on the side wall of the bottom box, one end of the opposite plug-in connector is connected with the electrode of the power supply piece, and the other end of the opposite plug-in connector extends out of the bottom box;

The power supply device comprises a power supply piece, a power supply coil, a lower cover and a receiving coil, wherein the power supply piece is arranged on the lower cover, the lower cover is arranged between the power supply piece and the upper cover, the receiving coil is fixed on one side, close to the power supply piece, of the lower cover, and the receiving coil can be electrically connected with the power supply piece.

2. The rechargeable power supply device of claim 1, wherein first division bars are arranged in the accommodating groove, the number of the first division bars is a plurality of the first division bars and are distributed at intervals at the bottom of the accommodating groove, the first division bars protrude upwards from the bottom of the accommodating groove, and the power supply piece can be placed on the first division bars.

3. The rechargeable power supply device of claim 2, wherein a drainage heat extraction groove is formed adjacent to the bottom of the first division bar and the bottom of the accommodating groove, a plurality of first hydrophobic heat extraction holes penetrating through the bottom of the accommodating groove are formed in the drainage heat extraction groove, and the longitudinal section of each first hydrophobic heat extraction hole is in an inverted cone shape with a wide upper part and a narrow lower part.

4. The rechargeable power supply device of claim 1, wherein the inner wall of the accommodating groove is further provided with a second parting bead, the second parting bead is vertically arranged and protrudes out of the inner wall around the accommodating groove, and the side part of the power supply piece can be abutted against the inner side part of the second parting bead.

5. The rechargeable power supply device of claim 4, wherein a guide slope is provided on a side of the upper portion of said second division bar near the center of said accommodation groove, said guide slope being gradually inclined from top to bottom from a position away from the center of said accommodation groove toward a direction near the center of said accommodation groove.

6. The rechargeable power supply device of claim 4, wherein the inner wall of the accommodating groove is further provided with a second hydrophobic heat dissipation hole, the second hydrophobic heat dissipation hole is arranged between the adjacent second division bars, and the second hydrophobic heat dissipation hole penetrates through the side wall of the bottom box from top to bottom in an inclined manner.

7. The rechargeable power supply device of claim 1, wherein a fixing plate is provided at an upper portion of the bottom case, the fixing plate extends from an outer wall of the bottom case, a fixing groove is provided on the base, the bottom case can be inserted into the fixing groove, and the fixing plate can be abutted against a notch edge of the fixing groove.

8. The rechargeable power supply device of claim 7, wherein a first through hole is formed in the fixing plate, a first fixing hole is formed in a notch edge of the fixing groove, and a position of the first through hole can correspond to a position of the first fixing hole.

9. The rechargeable power supply device of claim 7, wherein the bottom case further comprises a connecting plate, the connecting plate protrudes upwards from the fixing plate, the upper cover comprises a main cover plate and side cover plates arranged around the main cover plate, the side cover plates protrude downwards from the main cover plate, second through holes are formed in the side cover plates, second fixing holes are formed in the connecting plate, and positions of the second through holes can correspond to positions of the second fixing holes.

10. A toilet lid comprising a rechargeable power supply device according to any one of claims 1 to 9.