CN211551533U - Foldable lamp - Google Patents

Abstract

The utility model provides a foldable lamp, wherein foldable lamp includes a power supply portion, a luminous portion, an at least wire and a connecting portion, the luminous portion passes through the wire by conductively connected in power supply portion, wherein connecting portion include a connector, a connecting seat and a pivot, wherein the connector with the connecting seat is located respectively power supply portion with the luminous portion, and the connector passes through the pivot is rotationally connected in the connecting seat, thereby luminous unit can be wound the pivot rotationally connect in power supply portion, wherein the pivot is set up to pass eccentrically the connector with the connecting seat, supply in order to reserve the space the wire passes through connecting portion.

Description

Foldable lamp

Technical Field

The utility model relates to the illumination field especially involves collapsible lamp.

Background

Lamps are common lighting tools in daily life, working lamps are one type of lamps, and the working lamps are different from the daily-use lighting lamps in that the working lamps can provide higher lumens to meet the requirements of various working environments.

The working lamp can be applied to a plurality of scenes, such as vehicle maintenance, or an outdoor illuminating lamp.

The size of a general work light is heavy and not easy to carry, and as the requirement of a consumer for portability increases, more and more work lights are also developing towards miniaturization design.

The folding lamp is one of the working lamps, by which a handle and a light emitting part are included, wherein an angle between the light emitting part and the handle can be changed, that is, the light emitting part can be folded with respect to the handle. The handle is typically used to house a battery to provide power. This also means that electrical energy needs to be transferred from the grip position to the light emitting portion position.

The light-weight design of the folding lamp is challenged, for example, the rotating shaft is usually designed at the connecting position of the handle and the light-emitting part so that the included angle between the handle and the light-emitting part can be changed, but the connecting position of the handle and the light-emitting part also needs to provide the wiring for the handle to the light-emitting part, so the connecting position of the handle and the light-emitting part is necessarily designed to be larger to leave enough space.

Further, as the consumer demands for the performance of the folding light increase, the folding light may need to provide a plurality of operating modes, which increases the number of light sources that the light emitting portion location needs to be configured with, and also increases the number of wires connecting the handle location and the light emitting portion, which are disadvantageous for a miniaturized design of the entire folding light.

SUMMERY OF THE UTILITY MODEL

It is an object of the present invention to provide a collapsible light, wherein the collapsible light is capable of providing higher lumens while maintaining a small size.

It is another object of the present invention to provide a collapsible light, wherein the collapsible light is capable of providing multiple modes of operation while being small in size.

Another object of the present invention is to provide a foldable lamp, wherein the foldable lamp can provide a plurality of different light sources to satisfy more use demands while maintaining a small size.

Another object of the present invention is to provide a foldable lamp, wherein the foldable lamp includes a power supply portion and a light emitting portion, wherein the light emitting portion can move toward the power supply portion, so that the foldable lamp is folded.

Another object of the present invention is to provide a foldable lamp, wherein the wire of the foldable lamp can pass through the connection of the power supply portion and the light emitting portion on the premise of increasing the size of the connection of the power supply portion and the light emitting portion and does not affect the relative rotation of the power supply portion and the light emitting portion.

According to an aspect of the utility model provides a collapsible lamp, it includes:

a power supply portion;

a light emitting section;

at least one wire through which the light emitting part is conductively connected to the power supply part; and

a connecting portion, wherein connecting portion include a connector, a connecting seat and a pivot, wherein the connector with the connecting seat is located respectively power supply portion with the illuminating part, and the connector passes through the pivot is rotationally connected in the connecting seat, thereby luminescence unit is wound the pivot is rotationally connected in power supply portion is in order to be faced power supply portion is folding, wherein the pivot is set up to pass eccentrically the connector with the connecting seat, in order to reserve the space confession the wire passes through connecting portion.

According to some embodiments of the present invention, the connector comprises a first accommodating cavity, the connecting seat comprises a second accommodating cavity, wherein the first accommodating cavity is communicated with the second accommodating cavity, and the first central axis of the first accommodating cavity coincides with the central axis of the second accommodating cavity, the rotating shaft is eccentrically passed through the first accommodating cavity and the second accommodating cavity, the wire is in the second accommodating cavity bypasses the rotating shaft and then extends toward the first accommodating cavity.

According to some embodiments of the invention, the wire extends outside the rotating shaft, and when the light emitting portion faces the power supply portion, the wire can be stretched.

According to some embodiments of the utility model, the figure of connecting seat is two, the connector is located two between the connecting seat.

According to some embodiments of the utility model, the pivot arrives the distance of connector inner wall is not less than 5 mm.

According to some embodiments of the invention, the foldable lamp further comprises a light emitting portion mounting housing, wherein the light emitting portion comprises a light emitting member, wherein the light emitting member is mounted to the light emitting portion mounting housing and is located on a bottom surface side of the light emitting portion mounting housing.

According to some embodiments of the present invention, the light emitting part further includes another light emitting member, wherein the light emitting member is mounted to the light emitting part mounting case and is located on a top surface side of the light emitting part mounting case.

According to some embodiments of the invention, the light emitting part further comprises another light emitting member, wherein the light emitting member is mounted to the light emitting part mounting case and is located at a free end of the light emitting part mounting case.

According to some embodiments of the present invention, the light emitting part mounting case has a light emitting part accommodating groove, wherein the light emitting part is slidable along the light emitting part accommodating groove to be detachably accommodated in the light emitting part accommodating groove.

According to some embodiments of the invention, the collapsible light further comprises a light emitting portion mounting housing and the light emitting portion mounting housing has a light emitting portion receiving cavity, an upper light transmissive window and a lower light transmissive window, wherein the upper light transmissive window and the lower light transmissive window are located respectively in the light emitting portion receiving cavity both sides and communicate respectively in the light emitting portion holds the cavity, the light emitting portion comprises a double-sided COB, and the double-sided COB is held in the light emitting portion holds the cavity to pass through respectively the upper light transmissive window and the lower light transmissive window radiate light outwards.

According to some embodiments of the present invention, the thickness of the light-emitting portion accommodating groove is not less than 2mm,

according to some embodiments of the invention, the foldable lamp further comprises a power supply portion mounting housing, wherein the power supply portion mounting housing has a power supply portion mounting cavity, wherein the power supply portion is accommodated in the power supply portion mounting cavity, the connecting seat is connected to the power supply portion mounting housing.

According to some embodiments of the present invention, the foldable lamp further comprises a magnetic attraction seat, the magnetic attraction seat is located at the bottom side of the power supply unit installation housing, wherein the magnetic attraction seat comprises at least one pair of magnetic attraction parts with opposite polarities and at least one magnetic reinforcing part, wherein the magnetic reinforcing part is located inside the magnetic attraction part.

According to some embodiments of the invention, the magnetic reinforcing member is an iron plate, wherein the magnetic member is a magnet.

According to some embodiments of the present invention, the magnetic attraction seat comprises a magnetic attraction seat shell, wherein the magnetic attraction seat shell is fixed by the magnetic reinforcing member.

According to some embodiments of the present invention, the foldable lamp further comprises a light emitting portion mounting housing, a power supply portion mounting housing, a light emitting portion connecting housing, and a power supply portion connecting housing, wherein the light emitting portion connecting housing is connected the connector with the light emitting portion mounting housing, the power supply portion connecting housing is connected the connecting seat with the power supply portion connecting housing, wherein the light emitting portion mounting housing has a light emitting portion mounting groove, the light emitting portion is mounted in the light emitting portion mounting groove, the power supply portion mounting housing has a power supply portion mounting cavity, the power supply portion is mounted in the power supply portion mounting cavity.

Drawings

Fig. 1 is a schematic view of a foldable lamp according to a preferred embodiment of the present invention.

Fig. 2 is a disassembled view of the foldable lamp according to the above preferred embodiment of the present invention.

Fig. 3 is a view of a light emitting unit of the foldable lamp according to the above preferred embodiment of the present invention

Intention is.

Fig. 4 is a schematic sectional view based on the position of the sectional line a-a of the foldable lamp in fig. 2.

Fig. 5 shows a connecting portion of the foldable lamp according to the above preferred embodiment of the present invention

Schematic diagram of the conducting wire.

Fig. 6 is a sectional view of a magnetic attraction seat of the foldable lamp according to the above preferred embodiment of the present invention

Schematic representation.

Fig. 7 is a schematic view of the foldable lamp according to the above preferred embodiment of the present invention.

Fig. 8 is a schematic view of another application of the foldable lamp according to the above preferred embodiment of the present invention.

Detailed Description

The following description is presented to disclose the invention so as to enable any person skilled in the art to practice the invention. The preferred embodiments in the following description are given by way of example only, and other obvious variations will occur to those skilled in the art. The basic principles of the invention, as defined in the following description, may be applied to other embodiments, variations, modifications, equivalents and other technical solutions without departing from the spirit and scope of the invention.

It will be understood by those skilled in the art that in the present disclosure, the terms "longitudinal," "lateral," "upper," "lower," "front," "rear," "left," "right," "vertical," "horizontal," "top," "bottom," "inner," "outer," and the like are used in a generic and descriptive sense only and not for purposes of limitation, as the terms are used in the description to indicate that the referenced device or element must have the specified orientation, be constructed and operated in the specified orientation, and not for the purpose of limitation.

It is understood that the terms "a" and "an" should be interpreted as meaning that a number of one element or element is one in one embodiment, while a number of other elements is one in another embodiment, and the terms "a" and "an" should not be interpreted as limiting the number.

Referring to fig. 1 to 8, a collapsible light 1 according to a preferred embodiment of the present invention is illustrated.

The foldable lamp 1 can be folded to be conveniently stored, and the illumination direction thereof can be adjusted to meet different use requirements.

The foldability can be designed to be smaller in size and can provide higher lumens.

Specifically, the foldable lamp 1 includes a light emitting unit 10 and a power supply unit 20, wherein the light emitting unit 10 is rotatably connected to the power supply unit 20 with respect to the power supply unit 20, and the foldable lamp 1 can be folded when the light emitting unit 10 is rotated toward the power supply unit 20.

The power supply unit 20 includes a power supply portion 21, the light emitting unit 10 includes a light emitting portion 11, wherein the power supply portion 21 supplies power, the light emitting portion 11 emits light, the light emitting portion 11 is rotatably connected to the power supply portion 21 with respect to the power supply portion 21, and the power supply portion 21 is electrically connectable to the light emitting portion 11.

The angle between the light emitting part 11 and the power supply part 21 can be freely adjusted based on the user's needs. The light emitting part 11 may be rotated to be located on the same straight line with the power supply part 21, or the light emitting part 11 may be rotated to be located at a predetermined angle with the power supply part 21, for example, an acute angle.

The foldable lamp 1 has a folded state in which the light emitting part 11 is turned to be close to the power supply part 21 and an opened state. The light emitting part 11 and the power supply part 21 may be parallel or approximately parallel to reduce the length of the foldable lamp 1. In the open state, the light emitting unit 11 can be rotated by a certain angle with respect to the power supply unit 21.

Further, the foldable lamp 1 includes a connection portion 30, wherein the connection portion 30 is connected to the power supply portion 21 and the light emitting portion 11. The connection portion 30 may be independent of the power supply portion 21 and the light emitting portion 11, or the power supply portion 21 and the light emitting portion 11 may form at least part of the connection portion 30.

The connecting portion 30 includes a connecting head 31, at least one connecting seat 32 and a rotating shaft 33, wherein the connecting head 31 and the connecting seat 32 are respectively located in the power supply portion 21 and the light emitting portion 11, wherein the connecting head 31 and the connecting seat 32 are mutually rotatably connected through the rotating shaft 33. That is, the power supply part 21 and the light emitting part 11 are rotatably connected to each other by the rotational connection of the connection head 31 and the connection holder 32.

The connector 31 may be located at the power supply part 21, and the connecting seat 32 may be located at the light emitting part 11. The connecting head 31 may be located at the light emitting portion 11, and the connecting seat 32 may be located at the power supply portion 21. In the present embodiment, the connection head 31 is located at the light emitting part 11 and the connection seat 32 is located at the power supply part 21. Note that the connecting head 31 may be provided on the light emitting portion 11, or the light emitting portion 11 may form the connecting head 31. Similarly, the connection seat 32 may be provided on the power supply portion 21, and the power supply portion 21 may form the connection head 31.

The foldable lamp 1 further comprises at least one wire 40, wherein the wire 40 transmits energy from the power supply part 21 to the light emitting part 11. The light emitting portion 11 is communicated with the power supply portion 21 so that the wire 40 can transmit electric energy inside the light emitting portion 11 and the power supply portion 21.

The lead wire 40 extends from the power supply portion 21 to the light emitting portion 11 through the connecting portion 30. Specifically, the connecting head 31 has a first receiving cavity 310, wherein the connecting seat 32 has a second receiving cavity 320, and wherein the connecting head 31 is communicated with the connecting seat 32. That is, the first receiving chamber 310 communicates with the second receiving chamber 320.

The rotating shaft 33 passes through the first accommodating cavity 310 and the second accommodating cavity 320, and the lead wire 40 also passes through the first accommodating cavity 310 and the second accommodating cavity 320. If the direction in which the rotating shaft 33 extends in the lateral direction passes through the first accommodating chamber 310 and the second accommodating chamber 320, the wire 40 passes through the first accommodating chamber 310 and the second accommodating chamber 320 substantially in the longitudinal direction, and does not affect the wire 40 when the light emitting portion 11 rotates about the rotating shaft 33 relative to the power supply portion 21.

Specifically, the foldable lamp 1 has a rotation axis, wherein the rotation axis passes through the connection head 31 and the connection seat 32. The connecting head 31 and the connecting base 32 can rotate around the rotation axis respectively. The axis of rotation passes through the shaft 33.

For the connector 31 or the connecting seat 32, the connector 31 and the connecting seat 32 respectively have a central axis, when the power supply portion 21 of the foldable lamp 1 is held, the central axis passes through the connector 31 or the connecting seat 32 from left to right or from right to left.

For the first receiving chamber 310 and the second receiving chamber 320, the central axis passes through the first receiving chamber 310 and the second receiving chamber 320, respectively.

The first accommodating cavity 310 and the second accommodating cavity 320 are partially occupied by the rotating shaft 33 passing through from left to right or from right to left, respectively.

In the present embodiment, the rotating shaft 33 is disposed eccentrically to leave a sufficient wire passing space for the wire 40, so that the wire 40 can pass through the connecting portion 30 without being affected by the rotating shaft 33 which can rotate.

In detail, the connector 31 includes a connector housing 311, wherein the connector housing 311 is annular and surrounds the first receiving cavity 310. The connection socket 32 includes a connection socket side case 321 and a connection socket top case 322, wherein the connection socket side case 321 is provided in a ring shape and the connection socket top case 322 is provided in a circular shape. The connecting socket side case 321 is formed by extending from the circumferential position of the connecting socket top case 322 toward one side.

The connection socket side shell 321 and the connection socket top shell 322 surround to form the second receiving cavity 320. When the connecting seat 32 and the connecting head 31 are rotatably connected to each other by the rotating shaft 33. The connector housing 311 is connected to the connector holder-side housing 321, and the first receiving cavity 310 is aligned with the second receiving cavity 320.

Alternatively, the connector housing 311 may be formed with an annular groove, and the connector housing side 321 may be formed with an annular protrusion, so that when the connector 31 is connected to the connector housing 32, the annular groove is snapped into the annular protrusion to facilitate the sealing of the connection between the connector 31 and the connector housing 32.

In order to reduce the size of the connecting portion 30, the connecting head 31 and the connecting seat 32 are aligned with each other. Specifically, the central axis of the connecting head 31 coincides with the central axis of the connecting seat 32.

Since the rotating shaft 33 is eccentrically disposed, the rotating shaft 33 does not coincide with the center axes of the connecting head 31 and the connecting shaft.

In this embodiment, the rotating shaft 33 is disposed eccentrically toward the power supply portion 21, the connecting seat 32 is disposed on the power supply portion 21, and the connecting head 31 is disposed on the light emitting portion 11.

The lead wire 40 from the power supply portion 21 extends to the second receiving cavity 320 of the connecting seat 32, then extends around the rotating shaft 33 toward the first receiving cavity 310 of the connecting head 31, and then extends to the light emitting portion 11 for supplying power. In this process, the risk of the wire 40 being wound around the shaft 33 is reduced, since the eccentric shaft 33 leaves more space for the wire 40.

Further, the rotatable range of the light emitting portion 11 of the foldable lamp 1 is set within a certain angle, for example, not more than 180 degrees. This means that the light emitting part 11 normally moves on one side of the power supply part 21 if the position of the power supply part 21 is taken as a boundary.

The lead wire 40 is provided on the other side of the boundary with the position of the power supply portion 21. When the light emitting part 11 rotates relative to the power supply part 21, the rotation between the light emitting part 11 and the power supply part 21 does not have an excessive influence on the wire 40.

Specifically, the connecting portion 30 includes a light emitting portion connecting housing 34 and a power supply portion connecting housing 35, wherein the light emitting portion connecting housing 34 connects the light emitting portion 11 and the connecting head 31, and the power supply portion connecting housing 35 connects the power supply portion 21 and the connecting base 32.

The light emitting part connecting housing 34 has a first accommodating space 340, the connecting head 31 is disposed on the light emitting part connecting housing 34, and the first accommodating space 340 of the light emitting part connecting housing 34 communicates with the first accommodating chamber 310 of the connecting head 31. Alternatively, the light emitting unit connection housing 34 may be integrally formed with the connection head 31.

The power supply part connecting housing 35 has a second accommodating space 350, the connecting socket 32 is disposed in the power supply part connecting housing 35, and the second accommodating space 350 of the power supply part connecting housing 35 communicates with the second accommodating chamber 320 of the connecting socket 32. Alternatively, the power supply part connection housing 35 may be integrally formed with the connection holder 32.

The second accommodating space 350 of the power supply part connecting housing 35 is communicated with the second accommodating chamber 320 in which the power supply part 21 is located. The rotation shaft 33 is provided close to the power supply portion connection housing 35 with respect to the light emitting portion connection housing 34.

The lead wire 40 extends from the power supply part 21 toward the second receiving space 350 of the case of the power supply part 21, then extends along the outer side of the rotation shaft 33 to the second receiving cavity 320 of the connector holder 32, then extends from the second receiving cavity 320 of the connector holder 32 toward the first receiving cavity 310 of the connector 31 located at the inner side of the connector holder 32, and then extends to the first receiving space 340 of the light emitting part connection case 34.

Here, the outer side of the rotation shaft 33 means that the position of the light emitting part 11 is the inner side, and the other side where the light emitting part 11 is restricted by the rotation angle is the outer side.

Since the lead wire 40 extends outside the rotating shaft 33, the lead wire 40 is not folded when the light emitting part 11 rotates with respect to the power supply part 21, thereby avoiding a problem that the lead wire 40 is reduced in service life due to multiple folding.

Further, the coupling seat 32 has a coupling seat through hole 3200 and the coupling seat through hole 3200 is formed at the coupling seat top case 322, the coupling seat through hole 3200 is formed in a square shape, and after the circular rotation shaft 33 passes through the coupling seat through hole 3200, a certain space is left between the periphery of the rotation shaft 33 and the coupling seat 32.

Referring to fig. 5 again, in particular, the distance C from the shaft 33 to the inner wall of the connector 31 is not less than 5mm, so that the wire can pass through the space defined by the shaft 33 and the inner wall of the connector 31 and is not folded or bent. In this embodiment, the distance from the rotating shaft 33 to the connecting head 31 may be in a range of 5.3mm to 6 mm.

Further, the collapsible light 1 may provide a plurality of light sources with different radiation directions. Specifically, the light emitting part 11 includes at least one light emitting member 111, wherein one of the light emitting members 111 is implemented as a light emitting panel implemented in a long and narrow shape having a longer length and a smaller width.

The light emitting unit 10 further includes a light emitting section mounting case 12, wherein the light emitting section 11 is mounted to the light emitting section mounting case 12. The light emitting unit attachment housing 12 is attached to the light emitting unit attachment housing 34.

The light emitting member 111 implemented as the light emitting panel is mounted to the light emitting part mounting case 12 and the light emitting part mounting case 12 forms a light emitting part mounting groove 120, and the light emitting panel can be accommodated in the light emitting part mounting groove 120 and can be drawn out along the light emitting part mounting groove 120.

Specifically, the light emitting part mounting case 12 includes two mounting sides 121, wherein the light emitting part mounting groove 120 is formed between the two mounting sides 121. The light emitting part mounting case 12 further forms an upper light transmissive window 1201 and a lower light transmissive window 1202, wherein the upper light transmissive window 1201 and the lower light transmissive window 1202 are respectively located at upper and lower sides of the light emitting part mounting groove 120.

The upper light-transmitting window 1201 faces away from the power supply part 21, and the lower light-transmitting window 1202 faces toward the power supply part 21. When the light emitting part 11 is energized to emit light, light can be radiated outward through the upper light-transmitting window 1201 and the lower light-transmitting window 1202, respectively.

The other light emitting member 111 may be implemented as a light emitting panel, and the two light emitting members 111 are respectively mounted to the light emitting unit mounting grooves 120 and face the upper light transmission window 1201 and the lower light transmission window 1202, respectively. The light emitting portion 11 can emit light toward both sides.

The other light emitting member 111 is mounted to a free end portion of the light emitting portion mounting case 12, wherein the light emitting portion mounting case 12 has two end portions, the end portion being close to the power supply portion 21, and the other end portion being a free end portion.

The light emitting member 111 mounted to the free end portion may be an LED lamp bead. The three light emitting members 111 are respectively conductively connected to the power supply part 21, and it is noted that the three light emitting members 111 can be respectively controlled.

Further, in some embodiments of the present invention, the light emitting member 111 is implemented as a double-sided COB, which can emit light on both sides. Another light emitting member 111 may be installed at a free end of the double-sided COB to emit light at the end.

The thickness B of the light emitting part mounting groove 120 corresponding to the position of the light emitting member 111 is not less than 2mm, and the thickness a of the whole light emitting part mounting housing 12 is not less than 4.5 mm. The light emitting part mounting case 12 leaves a sufficient space for the light emitting member 111 to dissipate heat.

In more detail, the light emitting unit 10 further includes at least one light emitting auxiliary 13, wherein the number of the light emitting auxiliary 13 may be two, one light emitting auxiliary 13 is accommodated in the upper light transmissive window 1201, the other light emitting auxiliary 13 is accommodated in the lower light transmissive window 1202, and the light emitting member 111 is located between the two light emitting auxiliary 13 and keeps a certain distance from the light emitting auxiliary 13. The light emitting part mounting case 12 may be made of a metal material to assist the heat dissipation of the light emitting part 111, such as an aluminum profile.

In an embodiment of the present invention, the thickness of the light emitting part mounting groove 120 may be 3mm, and the light emitting member 111 is received in the light emitting part mounting groove 120. The thickness of the light emitting part mounting case 12 may be 6.8mm to leave a space between the light emitting member 111 and the light emitting part mounting case 12 for heat dissipation, and the light emitting part mounting case 12 itself may also assist the light emitting member 111 in heat dissipation.

The collapsible light 1 further comprises a switch 50, wherein the light emitting members 111 are controllably connected to the switch 50, respectively. The foldable lamp 1 may have a plurality of operation modes, for example, three light emitting members 111 respectively emit light independently, for example, two light emitting members 111 of the three light emitting members 111 emit light two by two, for example, three light emitting members 111 emit light simultaneously, and the like.

This requires that at least said collapsible light 1 provides at least three loops, one said luminous element 111 being connected to one loop. That is, the number of the wires 40 is plural, for example, four wires 40, three wires 40 are connected to one light emitting member 111, and one wire 40 is used to form a common loop portion.

Since the rotating shaft 33 is eccentrically disposed, a sufficient space for accommodating the plurality of wires 40 can be provided at the position of the connecting portion 30.

Further, the light emitting part connection housing 34 includes a first part light emitting part connection housing 341 and a second part light emitting part connection housing 342, wherein the first accommodation space 340 is formed between the first part light emitting part connection housing 341 and the second part light emitting part connection housing 342. The connection head 31 may integrally extend to the light emitting part connection housing 34.

Specifically, the connector housing 311 of the connector 31 may include a first connector housing 3111 and a second connector housing 3112, wherein the first connector housing 3111 and the second connector housing 3112 integrally extend to the first light-emitting portion connecting housing 341 and the second light-emitting portion connecting housing 342 respectively.

The light emitting section mounting housing 12 and the light emitting section connecting housing 34 can be detachably connected to each other. For example, the light emitting unit mounting housing 12 can be inserted into the first receiving space 340 of the light emitting unit connecting housing 34. Alternatively, the light emitting unit connection housing 34 may be inserted into the light emitting unit 11 mounting cavity of the light emitting unit mounting housing 12.

Further, the number of the connecting seats 32 is two, and the connecting seats 32 are respectively located at two sides of the connecting head 31. The rotating shaft 33 sequentially passes through one of the connecting seats 32, the connecting head 31 and the other connecting seat 32. The lead wire 40 may pass through one of the two connection holders 32 and the connection head 31.

The power supply part connection housing 35 includes a first partial power supply part connection housing 351 and a second partial power supply part connection housing 352, wherein the second receiving space 350 is formed between the first partial power supply part connection housing 351 and the second partial power supply part connection housing 352. One of the connection holders 32 integrally extends from the first partial power supply part connection housing 351 and the other of the connection holders 32 integrally extends from the second partial power supply part connection housing 352.

The foldable lamp 1 further includes a circuit board unit 60, wherein the circuit board unit 60 is accommodated in the second accommodating space 350 of the power supply part connecting housing 35. At least one of the leads 40 extends from the circuit board unit 60 toward the second receiving space 350. The circuit board unit 60 is conductively connected to the power supply portion 21.

The light emitting member 111 of the light emitting part 11 is controllably connected to the circuit board unit 60, and the circuit board unit 60 is controllably connected to the switch 50, so that the light emitting member 111 is controlled by controlling the switch 50.

The switch 50 is provided in the first partial power supply part connecting case 351 or the second partial power supply part connecting case 352 of the power supply part connecting case 35.

Further, the power supply unit 20 of the foldable lamp 1 further includes a power supply part mounting case 22, wherein the power supply part mounting case 22 has a power supply mounting cavity 220, and the power supply part 21 is accommodated in the power supply part mounting case 22.

The power supply portion connecting case 35 can be plugged into the power supply portion mounting cavity 220 of the power supply portion mounting case 22. Alternatively, the power supply unit attachment case 22 is inserted into the second accommodation space 350 of the power supply unit connection case 35.

Further, the foldable lamp 1 can be not only held in the hand for use, but also hung on a wall for use, thereby freeing the hands of the user.

Specifically, the foldable lamp 1 further comprises a magnetic attraction seat 70, wherein the magnetic attraction seat 70 is mounted at the bottom end of the power supply portion 21, and the magnetic attraction seat 70 can support when the foldable lamp 1 is placed on a table or the ground.

The magnetic attraction seat 70 comprises a magnetic attraction seat shell 71, at least one pair of magnets 72 and a magnetic attraction enhancing member 73, wherein the magnetic attraction seat shell 71 forms two receiving cavities 710, one of the magnets 72 is accommodated in one of the receiving cavities 710, and the other magnet is accommodated in the other receiving cavity 710.

A pair of the magnets 72 are of opposite polarity, with the magnetically attractive enhancement 73 being disposed adjacent the magnets 72 to enhance the magnetic attraction of the magnets 72.

The magnetic attraction seat 70 can be installed on a wall made of iron by the magnetic attraction of the magnet 72, for example, as shown in fig. 8.

It should be noted that the power supply portion 21 can support the light emitting portion 11, and the resistance at the position of the connecting portion 30 can be no less than the gravity of the light emitting portion 11, so that the power supply portion 21 can support the light emitting portion 11 at the adjusted angle. Further, the connecting portion 30 may further include a fastening member 36, wherein the fastening member 36 is connected to the rotating shaft 33 and connected to the connecting head 31 or the connecting seat 32, so as to increase resistance to rotation of the rotating shaft 33 and to the connecting head 31 and the connecting seat 32, thereby temporarily fixing the light emitting portion 11 at the adjusted position. The fastener 36 may be a screw.

Further, the magnetic reinforcing member 73 and one of the magnets 72 are accommodated in one of the accommodating cavities 710, and the magnetic reinforcing member 73 and the other of the magnets 72 can be accommodated in the other of the accommodating cavities 710.

When the magnetic attraction seat 70 is attracted to a desired position, the two magnets 72 can be in the same plane to facilitate the magnetic force of the magnetic attraction seat 70.

When the number of the magnetically attractive reinforcing members 73 is one, the two receiving cavities 710 communicate with each other so that a portion of the magnetically attractive reinforcing member 73 can be located in one receiving cavity 710 and another portion of the magnetically attractive reinforcing member 73 can be located in the other receiving cavity 710. The magnetic attraction enhancing member 73 is located inside the magnet 72, and when the magnetic attraction base 70 is attracted to an object, the magnet 72 is closer to the external object than the magnetic attraction enhancing member 73.

When the number of the magnetic reinforcing members 73 is two, one magnetic reinforcing member 73 may be provided for each magnet 72.

It is noted that the number of the magnets 72 may be plural pairs, for example, the number of the magnets 72 as S-poles in one of the receiving cavities 710 may be two or more, and the number of the magnets 72 as N-poles in the other receiving cavity 710 may be two or more.

The magnetic attraction enhancing member 73 can enhance the attraction force of the magnet 72, and the magnetic attraction enhancing member 73 can be used as a mounting member. The magnetically attractive reinforcement 73 may be used to mount the magnet 72 such that the magnet 72 is securely mounted to the magnetically attractive base housing 71. With the magnetically attracting reinforcement 73, the magnetically attracting seat 70 does not need to be provided with an insert for mounting the magnet 72.

The magnetically attractive reinforcement 73 may be implemented as an iron sheet, a cobalt sheet, or a nickel sheet, or a mixture of the above three magnetically attractive metals.

The magnetic attraction reinforcing part 73 can enhance the magnetism of the two magnets 72 with opposite polarities, and has a simple structure and convenient use.

Further, one of the receiving cavities 710 of the magnetic attraction seat 70 may be communicated with the power supply mounting cavity 220 of the power supply part mounting case 22. The magnetic attraction seat housing 71 may be integrally formed with the power supply portion mounting housing 22 to facilitate the structural strength of the foldable lamp 1 and also to reduce the possibility of moisture entering the power supply portion 21 from the connection position of the magnetic attraction seat 70 and the power supply portion mounting housing 22.

Further, the foldable lamp 1 may further include an interface 80, wherein the interface 80 is located at the power supply portion connecting housing 35 of the power supply unit 20, and the interface 80 may be conducted to the light emitting portion 11 to transmit power to the light emitting portion 11. The interface 80 may be conducted to the power supply part 21 to transmit power to the power supply part 21. The power supply unit 21 may also transmit power to the outside through the interface 80.

The interface 80 may be, but is not limited to, a USB interface, TYPE-C interface.

The power supply unit 21 may be a battery or a plurality of batteries, and the kind of the battery is not limited to the present invention.

According to an aspect of the present invention, the present invention provides an assembling method of the foldable lamp 1, which includes the following steps:

mounting the light emitting part 11 on the power supply part 21 by the connection part 30 to be rotatable with respect to the power supply part 21; and

a wire connecting the light emitting part 11 and the power supply part 21 extends between the light emitting part 11 and the power supply part 21 through the connection part 30.

According to some embodiments of the present invention, in the above method, a connector 31 is mounted on a connector seat 32 by a rotating shaft 33, wherein the connector 31 is connected to the light emitting part 11, and the connector seat 32 is connected to the power supply part 21.

According to some embodiments of the present invention, in the above method, the wire 40 extends from the power supply portion 21 to the connection portion 30 and bypasses the rotation shaft 33 located in the connection portion 30 to extend toward the light emitting portion 11.

According to some embodiments of the present invention, in the above method, the connecting portion 30 is foldable toward the power supply portion 21, and the wire 40 bypasses the rotating shaft 33 from the side opposite to the folding direction, so that the wire 40 can be stretched when the light emitting portion 11 is folded toward the power supply portion 21.

According to some embodiments of the present invention, in the above method, the light emitting part 11 is mounted by a light emitting part mounting case 12. The light emitting member 111 is attached to the light emitting section mounting case 12 with the light emitting region facing the power supply section 21, or the light emitting member 111 is attached to the light emitting section mounting case 12 with the light emitting region facing away from the power supply section 21, or the light emitting member 111 is attached to a free end portion of the light emitting section mounting case 12.

According to some embodiments of the present invention, in the above method, the light emitting part mounting housing 12 is inserted into a light emitting part connecting housing 34, wherein the light emitting part connecting housing 34 connects the connecting head 31 and the light emitting part mounting housing 12.

According to some embodiments of the present invention, in the above method, the power supply part 21 is installed by a power supply part installation case 22. The power supply portion 21 is accommodated in the power supply portion accommodating chamber 220 of the power supply portion mounting case 22.

According to some embodiments of the present invention, in the upper method, the power supply portion mounting case 22 is plugged into a power supply portion connecting case 35, wherein the power supply portion connecting case 35 connects the connecting seat 32 and the power supply portion mounting case 22.

According to some embodiments of the present invention, in the above method, the circuit board unit 60 is disposed on the power supply portion connecting housing 35.

According to some embodiments of the present invention, in the upper method, the magnetic attraction seat 70 is disposed at the bottom end of the power supply portion mounting housing 22.

According to another aspect of the present invention, the present invention provides a working method of the foldable lamp 1, which comprises the following steps:

the light emitting portion 11 located at least one position of the top side, the bottom side, or the end side of the light emitting portion mounting case 12 emits light.

It will be understood by those skilled in the art that the embodiments of the present invention as described above and shown in the drawings are given by way of example only and are not limiting of the present invention. The objects of the present invention have been fully and effectively accomplished. The functional and structural principles of the present invention have been shown and described in the embodiments without departing from the principles, embodiments of the present invention may have any deformation or modification.

Claims (16)

1. A collapsible light, comprising:

a power supply portion;

a light emitting section;

at least one wire through which the light emitting part is conductively connected to the power supply part; and

a connecting portion, wherein connecting portion include a connector, a connecting seat and a pivot, wherein the connector with the connecting seat is located respectively power supply portion with the illuminating part, and the connector passes through the pivot is rotationally connected in the connecting seat, thereby the illuminating part is wound the pivot is rotationally connected in power supply portion is in order to be faced the power supply portion is folding, wherein the pivot is set up to pass eccentrically the connector with the connecting seat, in order to reserve the space confession the wire passes through connecting portion.

2. The foldable lamp of claim 1, wherein the connector comprises a first receiving cavity, the connector base comprises a second receiving cavity, wherein the first receiving cavity communicates with the second receiving cavity and a central axis of the first receiving cavity coincides with a central axis of the second receiving cavity, the shaft eccentrically passes through the first receiving cavity and the second receiving cavity, respectively, and the wire passes around the shaft in the second receiving cavity and then extends toward the first receiving cavity.

3. The foldable lamp of claim 1 or 2, wherein the wire extends outside the rotation shaft, the wire being capable of being stretched when the light emitting part is rotated toward the power supply part.

4. A collapsible light as claimed in claim 1 or 2, wherein the number of the connection sockets is two, the connector being located between two of the connection sockets.

5. The foldable lamp of claim 2, wherein the distance from the rotating shaft to the inner wall of the connector is not less than 5 mm.

6. The foldable lamp of claim 1, further comprising a light emitting portion mounting housing, wherein the light emitting portion comprises a light emitting member, wherein the light emitting member is mounted to the light emitting portion mounting housing and is located on a bottom surface side of the light emitting portion mounting housing.

7. The collapsible light of claim 6, wherein the light emitting section further comprises another of the light emitting members, wherein the light emitting member is mounted to the light emitting section mounting housing and is located on a top surface side of the light emitting section mounting housing.

8. The collapsible light of claim 6 or 7 wherein the light emitting section further comprises another of the light emitting members, wherein the light emitting member is mounted to the light emitting section mounting housing and is located at a free end of the light emitting section mounting housing.

9. The foldable lamp of claim 6, wherein the light-emitting portion mounting housing has a light-emitting portion-receiving groove, wherein the light-emitting portion is slidable along the light-emitting portion-receiving groove to be detachably received in the light-emitting portion-receiving groove.

10. The collapsible light of claim 1, further comprising a light emitter mounting housing and having a light emitter receiving cavity, an upper light transmissive window and a lower light transmissive window, wherein the upper light transmissive window and the lower light transmissive window are respectively located on either side of the light emitter receiving cavity and are respectively in communication with the light emitter receiving cavity, the light emitter comprising a two-sided COB, and the two-sided COB being received in the light emitter receiving cavity to radiate light outwardly through the upper light transmissive window and the lower light transmissive window, respectively.

11. The collapsible light of claim 10, wherein the thickness of the light-emitting part-receiving groove is not less than 2 mm.

12. The foldable lamp of claim 1, 2, 6 or 10, further comprising a power supply part mounting case, wherein the power supply part mounting case has a power supply part mounting cavity, wherein the power supply part is received in the power supply part mounting cavity, and the connection socket is connected to the power supply part mounting case.

13. The foldable lamp of claim 12, further comprising a magnetic socket on the bottom side of the power supply unit housing, wherein the magnetic socket comprises at least one pair of magnetic parts with opposite polarities and at least one magnetic reinforcing part, wherein the magnetic reinforcing part is located inside the magnetic parts.

14. The collapsible light of claim 13, wherein the magnetic enhancement is an iron sheet, wherein the magnetically attractive member is a magnet.

15. The collapsible light of claim 13, wherein the magnetically attractive base comprises a magnetically attractive base housing, wherein the magnetically attractive member is secured to the magnetically attractive base housing by the magnetic enhancement member.

16. The foldable lamp of claim 1, further comprising a light emitting section mounting housing, a power supply section mounting housing, a light emitting section connecting housing, and a power supply section connecting housing, wherein the light emitting section connecting housing connects the connector and the light emitting section mounting housing, the power supply section connecting housing connects the connector base and the power supply section connecting housing, wherein the light emitting section mounting housing has a light emitting section mounting groove, the light emitting section is mounted to the light emitting section mounting groove, the power supply section mounting housing has a power supply section mounting cavity, and the power supply section is mounted to the power supply section mounting cavity.

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