CN219014235U - Switching device of LED candle lamp - Google Patents

Abstract

The utility model discloses a switching device of an LED candle lamp, which comprises a shell, a lamp bead, a switch, a battery bin, a battery and a battery cover, wherein a hollow barrel-shaped structural member for installing the battery is arranged in the battery bin, the battery cover is connected with the battery bin through a gradual-tightening rotation locking structure, the lamp bead is arranged on a positioning feature piece of the battery bin, the switch is assembled on the battery bin through an inverted buckle clamping groove structure, the lamp bead is connected with the battery through the switch to control the on-off action of a lamp body circuit, and the lamp bead, the switch, the battery bin, the battery and the battery cover are sleeved in the shell. The utility model has compact and simple design, is easy to realize automation, and has more market competitiveness based on excellent cost advantages. The LED candle lamp has the advantages that the lamp bead installation and the on-off control are combined with the shells with different light effect characteristics, so that the luminous effect of the LED candle lamp is improved, the structural volume is reduced, and the problems of inconvenient installation and use caused by overlarge structural volume are avoided.

Description

Switching device of LED candle lamp

Technical Field

The utility model relates to the technical field of LED lamps, in particular to a switching device of an LED candle lamp.

Background

The traditional candle lamp generally comprises a lamp body and a lamp wick, the lamp body made of burning paraffin materials achieves a lighting effect when the lamp wick is made by wires, the burning time and the service life of each candle are limited, when paraffin is burnt out, new candles need to be re-lighted, in addition, the candles are easy to blow out by wind or air flow in the use process, and peripheral combustible materials are easy to ignite to cause fire.

Therefore, people adopt LED lamp beads to simulate the lighting effect of the traditional candle, diversified LED lamps are manufactured, the LED candle lamps are more and more in variety along with the development of the LED lamps, but when the batteries are used for supplying power, the LED candle bulbs are large in size, the batteries are easy to contact with the LED lamps during control, and the on-off control operation is inconvenient.

Disclosure of Invention

The utility model aims to overcome the defects and shortcomings of the prior art and provide a switching device of an LED candle lamp, which has high optical density and can realize ultra-long-distance irradiation.

In order to achieve the above object, the present utility model provides the following solutions:

the utility model provides a switching device of an LED candle lamp, which comprises a shell, a lamp bead, a switch, a battery bin, a battery and a battery cover, wherein a hollow barrel-shaped structural member for installing the battery is arranged in the battery bin, the battery cover is connected with the battery bin through a gradual-tightening rotary locking structure, the lamp bead is arranged on a positioning feature piece of the battery bin, the switch is assembled on the battery bin through an inverted buckle clamping groove structure, the lamp bead is connected with the battery through the switch to control the on-off action of a lamp body circuit, and the lamp bead, the switch, the battery bin, the battery and the battery cover are sleeved in the shell.

Preferably, a battery groove for accommodating a battery is formed in the hollow barrel-shaped structural member of the battery bin, a rotary locking groove is formed in the position of the opening of the battery groove, the rotary locking groove is located on the side wall of the hollow barrel-shaped structural member, a rotary locking buckle is arranged on the battery cover, and the rotary locking buckle is used for being screwed into the rotary locking groove and is gradually fastened with the rotary locking groove to form a rotary locking structure.

Preferably, the lamp bead comprises a negative electrode pin and a positive electrode pin, wherein the negative electrode pin is used for being inserted into a hollow barrel-shaped battery groove in the battery bin through a battery bin design hole on the positioning feature piece, and is in electrical connection with the negative electrode of the battery.

Preferably, the positioning feature piece is located on the hollow barrel-shaped structural piece, the battery compartment design hole is located in the middle of the positioning feature piece, the negative electrode pin of the lamp bead is bent by 90 degrees, the negative electrode pin of the lamp bead is inserted into the hollow barrel-shaped battery groove of the battery compartment from top to bottom, and the bent 90-degree section of the negative electrode pin is in contact with the negative electrode of the battery for electric connection.

Preferably, a buckling groove is formed in the battery bin, an inverted buckle is arranged on the switch, and the inverted buckle is used for being inserted into the buckling groove to form an inverted buckle clamping groove structure with limited upper and lower matching degrees of freedom.

Preferably, a limit chute track is further arranged above the buckling groove of the battery compartment, and the switch installed in the buckling groove is arranged along the limit chute track in a reciprocating mode.

Preferably, the switch is provided with a convex hull damping structural member, an opening and closing clamping column is arranged on a battery compartment on one side of the limit chute track, and the convex hull damping structural member and the opening and closing clamping column form a convex hull damping fit transition structure for enabling the switch to open and close.

Preferably, the switch is further provided with a switch design hole, and the positive pole pin of the switch is used for being inserted into the switch design hole to be far away from or contacted with the positive pole of the battery when the switch is clamped and slides in the limit chute track, so as to control the on-off action of the lamp body circuit.

Preferably, the housing covers over the lamp beads and the battery compartment, the housing including a housing of at least one structural feature.

Preferably, the housing comprises a mobius housing, a roman column housing, and an loving heart housing.

Compared with the prior art, the utility model has the following beneficial effects:

1. in the switching device of the LED candle lamp, the lamp body structure is formed by matching the shell, the lamp beads, the switch, the battery bin, the battery and the battery cover, so that the switching device is compact and simple in design, easy to realize automation, and has better market competitiveness based on excellent cost advantages.

2. In the switching device of the LED candle lamp, the switch for switching on and off the lamp beads and the sliding control circuit is arranged in the battery bin, and the shells with different appearance characteristics are sleeved on the lamp body structure, so that different lamplight effects are displayed.

3. In the switching device of the LED candle lamp, the lamp bead negative electrode pin bent by 90 degrees is in contact with the battery negative electrode to complete electric connection, and the battery cover compresses the battery to realize the cooperation with the lamp bead negative electrode pin under the connection of the locking structure by gradual tightening rotation, so that the electric contact stability is ensured.

4. In the switching device of the LED candle lamp, the limit of the degree of freedom of the upper and lower matching of the switch on the battery bin is realized through the inverted dead button clamping groove structure, the limit chute track characteristic is adopted, the switch can move back and forth in the chute track, the convex hull damping matching transition structure is utilized to realize the real switching clamping effect similar to that of the electric switch, the positive electrode pin of the lamp bead is driven to contact or be far away from the positive electrode of the battery when the switch is clamped and slid in the chute of the battery bin, the on-off action of a lamp body circuit is further completed, and the switching device is convenient and quick to operate.

5. According to the switching device of the LED candle lamp, provided by the utility model, the lamp bead installation and on-off control are combined with the shells with different light effect characteristics from the aspects of saving cost and improving the sensory visual design of consumers, so that the light emitting effect of the LED candle lamp is improved, the structural volume is reduced, and the problems of inconvenient installation and use caused by overlarge structural volume are avoided.

Drawings

In order to more clearly illustrate the embodiments of the present utility model or the technical solutions of the prior art, the drawings that are needed in the embodiments will be briefly described below, it being obvious that the drawings in the following description are only some embodiments of the present utility model, and that other drawings may be obtained according to these drawings without inventive effort for a person skilled in the art.

Fig. 1 is a schematic diagram of an exploded structure of a switching device of an LED candle lamp.

Fig. 2 is a partial view of the lamp bead, switch and battery compartment of fig. 1 prior to assembly.

Fig. 3 is a schematic view of a partial exploded structure of the battery of fig. 1 before the battery is assembled into a battery compartment.

Fig. 4 is a top view of a partially exploded structure of the battery of fig. 1 prior to assembly into a battery compartment.

FIG. 5 is a schematic view of the structure of the housing of FIG. 1 in the form of a Mobius housing;

FIG. 6 is a schematic view of the structure of the roman column housing of FIG. 1;

fig. 7 is a schematic structural view of the case of fig. 1 as an loving case.

The device comprises a 1-shell, a 2-lamp bead, a 21-cathode pin, a 22-anode pin, a 3-switch, a 31-switch design hole, a 32-convex hull damping structural member, a 33-inverted dead buckle, a 4-battery bin, a 41-hollow barrel structural member, a 42-positioning characteristic member, a 43-rotary locking groove, a 44-open-close clamping column, a 45-clamping groove, a 46-battery groove, a 5-battery, a 6-battery cover and a 61-rotary locking buckle.

Detailed Description

The following description of the embodiments of the present utility model will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present utility model, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

The utility model aims to overcome the defects and shortcomings of the prior art and provide a switching device of an LED candle lamp, which has high optical density and can realize ultra-long-distance irradiation.

In order that the above-recited objects, features and advantages of the present utility model will become more readily apparent, a more particular description of the utility model will be rendered by reference to the appended drawings and appended detailed description.

As shown in fig. 1-4, the utility model provides a switching device of an LED candle lamp, comprising a housing 1, a lamp bead 2, a switch 3, a battery compartment 4, a battery 5 and a battery cover 6, wherein a hollow barrel-shaped structural member 41 for installing the battery 5 is arranged in the battery compartment 4, the battery cover 6 is connected with the battery compartment 4 through a locking structure capable of rotating gradually and tightly, the lamp bead 2 is arranged on a positioning feature piece 42 of the battery compartment 4, the switch 3 is assembled on the battery compartment 4 through an inverted buckle slot structure, the lamp bead 2 is connected with the battery 5 through the switch 3 to control the on-off action of a lamp body circuit, and the lamp bead 2, the switch 3, the battery compartment 4, the battery 5 and the battery cover 6 are sleeved in the housing 1.

In the switching device of the LED candle lamp, the lamp body structure is formed by matching the shell 1, the lamp beads 2, the switch 3, the battery bin 4, the battery 5 and the battery cover 6, so that the switching device is compact and simple in design, easy to realize automation, and has more market competitiveness based on excellent cost advantages.

For facilitating the assembly of the battery 5, as shown in fig. 1, 3 and 4, in this embodiment, a battery slot 46 for accommodating the battery 5 is provided in the hollow barrel-shaped structural member 41 of the battery compartment 4, a rotation locking slot 43 is provided at an open position of the battery slot 46, the rotation locking slot 43 is located on a side wall of the hollow barrel-shaped structural member 41, a rotation locking buckle 61 is provided on the battery cover 6, and the rotation locking buckle 61 is used for being screwed into the rotation locking slot 43 and forms a gradual tightening rotation locking structure with the rotation locking slot 43.

For easy assembly of the lamp beads 2 and control by the switch 3, referring to fig. 1 and 2, in this embodiment, the lamp beads 2 include a negative electrode pin 21 and a positive electrode pin 22, and the negative electrode pin 21 is used to be inserted into a hollow barrel-shaped battery slot 46 in the battery compartment 4 through a design hole of the battery compartment 4 on the positioning feature 42, and is electrically connected with the negative electrode contact of the battery 5.

In this embodiment, as shown in fig. 2 and fig. 4, the positioning feature piece 42 is located on the hollow barrel-shaped structural piece 41, as shown in fig. 3, the design hole of the battery compartment 4 is located in the middle of the positioning feature piece 42, the negative electrode leg 21 of the lamp bead 2 is bent by 90 degrees, the negative electrode leg 21 of the lamp bead 2 is inserted into the hollow barrel-shaped battery groove 46 of the battery compartment 4 from top to bottom, and the bent 90-degree section of the negative electrode leg 21 is in contact with the negative electrode of the battery 5 for electrical connection.

For convenience in assembling the switch 3 on the battery compartment 4, as shown in fig. 2, in this embodiment, a fastening slot 45 is provided on the battery compartment 4, an inverted buckle 33 is provided on the switch 3, and the inverted buckle 33 is used for being inserted into the fastening slot 45 to form an inverted buckle slot structure with limited degree of freedom in vertical fit.

In the switching device of the LED candle lamp, the electric connection is completed by bending the negative electrode pin 21 of the lamp bead 2 by 90 degrees and contacting with the negative electrode of the battery 5, and the battery cover 6 compresses the battery 5 to realize the cooperation with the negative electrode pin 21 of the lamp bead 2 under the connection of the locking structure by gradual tightening and rotation, so that the electric contact stability is ensured.

In this embodiment, as shown in fig. 2 and 4, a limit chute track is further disposed above the fastening slot 45 of the battery compartment 4, and the switch 3 installed in the fastening slot 45 is disposed along the limit chute track in a reciprocating manner.

In this embodiment, the switch 3 is provided with a convex hull damping structural member 32, the battery compartment 4 on one side of the track of the limiting chute is provided with an opening and closing clamping column 44, and the convex hull damping structural member 32 and the opening and closing clamping column 44 form a convex hull damping fit transition structure for enabling the switch 3 to open and close.

In this embodiment, as shown in fig. 2, the switch 3 is further provided with a switch design hole 31, and the positive electrode pin 22 of the switch 3 is inserted into the switch design hole 31 to be far away from or contact with the positive electrode of the battery 5 when the switch 3 is clamped and slid in the limit chute track, so as to control the on-off action of the lamp body circuit.

In the switching device of the LED candle lamp, the limit of the degree of freedom of the upper and lower matching of the switch 3 on the battery bin 4 is realized through the inverted dead button clamping groove structure, the limit chute track characteristic is adopted, the switch 3 can move back and forth in the chute track, the effect similar to the real opening and closing of the electric switch 3 is realized by utilizing the convex hull damping matching transition structure, the positive pole pin 22 of the lamp bead 2 is driven to contact or be far away from the positive pole of the battery 5 when the switch 3 is in clamping sliding in the chute of the battery bin 4, the on-off action of a lamp body circuit is further completed, and the operation is convenient and quick.

In this embodiment, referring to fig. 1, the housing 1 is covered over the lamp beads 2 and the battery compartment 4, and the housing 1 includes a housing with at least one structural feature. The housing 1 includes, but is not limited to, a mobius housing, a roman column housing, and an loving housing, as shown in fig. 5 to 7.

In the switching device of the LED candle lamp, the lamp beads 2 and the switch 3 for controlling the on-off of the circuit are arranged in the battery bin 4, and the shells 1 with different appearance characteristics are sleeved on the lamp body structure, so that different lamplight effects are displayed.

According to the switching device of the LED candle lamp, provided by the utility model, the lamp beads 2 are installed and controlled on/off and the shell 1 with different light effect characteristics are combined from the aspects of saving cost and improving the sensory visual design of consumers, so that the light emitting effect of the LED candle lamp is improved, the structural volume is reduced, and the problems of inconvenient installation and use caused by overlarge structural volume are avoided.

The principles and embodiments of the present utility model have been described in detail with reference to specific examples, which are provided to facilitate understanding of the method and core ideas of the present utility model; also, it is within the scope of the present utility model to be modified by those of ordinary skill in the art in light of the present teachings. In view of the foregoing, this description should not be construed as limiting the utility model.

Claims (10)

1. The utility model provides a switching device of LED candle lamp, its characterized in that, including shell (1), lamp pearl (2), switch (3), battery compartment (4), battery (5) and battery cover (6), be equipped with in battery compartment (4) and be used for cavity tubulose structure (41) of battery (5) installation, battery cover (6) are connected through by elasticity rotation locking structure gradually with battery compartment (4), lamp pearl (2) set up on location feature piece (42) of battery compartment (4), switch (3) are assembled on battery compartment (4) through the back-off draw-in groove structure, lamp pearl (2) are through the break-make action of battery (5) control lamp body circuit of switch (3), lamp pearl (2), switch (3), battery compartment (4), battery (5) and battery cover (6) cover are established in shell (1).

2. The switching device of the LED candle lamp according to claim 1, wherein a battery groove (46) for accommodating the battery (5) is arranged in the hollow barrel-shaped structural member (41) of the battery bin (4), a rotary locking groove (43) is arranged at an opening position of the battery groove (46), the rotary locking groove (43) is positioned on the side wall of the hollow barrel-shaped structural member (41), a rotary locking buckle (61) is arranged on the battery cover (6), and the rotary locking buckle (61) is used for being screwed into the rotary locking groove (43) and forms a gradually tightening rotary locking structure with the rotary locking groove (43).

3. The switching device of an LED candle lamp according to claim 2, wherein the lamp bead (2) comprises a negative electrode leg (21) and a positive electrode leg (22), the negative electrode leg (21) being adapted to be inserted into a hollow barrel-shaped battery slot (46) in the battery compartment (4) through a battery compartment (4) design hole in the positioning feature (42) in electrical connection with the negative electrode contact of the battery (5).

4. A switching device of an LED candle lamp according to claim 3, wherein the positioning feature (42) is located on the hollow barrel-shaped structural member (41), the battery compartment (4) design hole is located in the middle of the positioning feature (42), the negative electrode leg (21) of the lamp bead (2) is bent (90 degrees), the negative electrode leg (21) of the lamp bead (2) is inserted into the hollow barrel-shaped battery groove (46) of the battery compartment (4) from top to bottom, and the bent (90 degree section of the negative electrode leg (21) is in contact with the negative electrode of the battery (5) for electrical connection.

5. The switching device of the LED candle lamp according to claim 4, wherein a buckling groove (45) is formed in the battery compartment (4), an inverted buckle (33) is arranged on the switch (3), and the inverted buckle (33) is used for being inserted into the buckling groove (45) to form an inverted buckle clamping groove structure with limited degree of freedom in an up-down matching mode.

6. The switching device of the LED candle lamp according to claim 5, wherein a limit chute track is further arranged above a fastening groove (45) of the battery compartment (4), and the switch (3) installed in the fastening groove (45) is arranged in a reciprocating manner along the limit chute track.

7. The switching device of the LED candle lamp according to claim 6, wherein the switch (3) is provided with a convex hull damping structural member (32), the battery compartment (4) on one side of the limit chute track is provided with an opening and closing click post (44), and the convex hull damping structural member (32) and the opening and closing click post (44) form a convex hull damping fit transition structure for opening and closing the switch (3).

8. The switching device of the LED candle lamp according to claim 7, wherein the switch (3) is further provided with a switch design hole (31), and the positive pole leg (22) of the switch (3) is used for being inserted into the switch design hole (31) to be far away from or contacted with the positive pole of the battery (5) when the switch (3) is blocked and slides in the limit chute track, so as to control the on-off action of the lamp body circuit.

9. The switching device of an LED candle lamp according to claim 1, wherein the housing (1) is covered over the lamp beads (2) and the battery compartment (4), the housing (1) comprising a housing of at least one structural feature.

10. The switching device of an LED candle lamp according to claim 9, wherein the housing (1) comprises a mobius housing, a roman column housing and an lover housing.

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