CN112994160B - Miner lamp charging rack and charging system - Google Patents

Abstract

The invention discloses a miner lamp charging rack and a charging system, and belongs to the technical field of charging equipment. The miner lamp charging rack is used for charging a plurality of miner lamps, each miner lamp comprises a lamp body and a battery box provided with a battery, each miner lamp charging rack comprises a rack body and a locking mechanism arranged on the rack body, and the battery box can be locked by the locking mechanism. The miner lamp charging rack and the charging system can ensure that the battery of the miner lamp can be protected while a plurality of miner lamps are normally charged, and the potential safety hazard of being stolen is reduced.

Description

Miner lamp charging rack and charging system

Technical Field

The invention relates to the technical field of charging equipment, in particular to a miner lamp charging frame and a charging system.

Background

When charging the rope miner's lamp, the prior art mostly adopts a single charger to charge or uses a traditional charging rack to charge. The single miner's lamp can be charged only by using the single charger, and when a plurality of miner's lamps are required to be charged at the same time, the charging efficiency is low; when charging is carried out by using the charging frame, the battery box of the rope miner lamp is placed in the battery accommodating groove below the charging frame, so that the battery box is placed in disorder, the battery is not protected, the battery is taken away at will easily, and the potential safety hazard of theft exists.

Disclosure of Invention

The invention aims to provide a miner lamp charging rack and a charging system, which can ensure that a plurality of miner lamps are normally charged, and meanwhile, the battery of the miner lamp is protected, so that the potential safety hazard of being stolen is reduced.

To achieve the purpose, the invention adopts the following technical scheme:

The miner's lamp charging rack is used for charging a plurality of miner's lamps, the miner's lamp includes a lamp body and a battery box provided with a battery, the miner's lamp charging rack includes a rack body and a locking mechanism arranged on the rack body, and the locking mechanism can lock the battery box.

Optionally, the locking mechanism includes a battery lock and a locking plate, the battery lock includes a lock catch, the lock catch has a locking position and an unlocking position, a clamping groove is formed on the locking plate, a box button is formed on the battery box, the box button can be arranged on the locking plate in a penetrating manner, and when the lock catch is located at the locking position, the lock catch is clamped in the clamping groove to lock the battery box; when the lock catch is positioned at the unlocking position, the lock catch is separated from the clamping groove to unlock the battery box.

Optionally, the hasp includes detains the body and sets up the pothook on the detaining the body, the pothook with form the desk groove between the detaining the body, the desk groove can be located in the draw-in groove so that the pothook butt is in on the jam plate.

Optionally, the battery lock further comprises a transmission part and a key, wherein the transmission part is provided with a lock hole, the transmission part is fixedly connected with the lock catch, and when the key is inserted into the lock hole, the key rotates around the central shaft of the transmission part so as to drive the lock catch to rotate.

Optionally, the locking mechanism further comprises a lock frame, the lock frame is connected to the frame body, the battery lock is detachably connected to the lock frame, and the lock plate and the lock frame are of an integrated structure.

Optionally, the miner's lamp charging rack further includes an indicating mechanism, the indicating mechanism includes a light guiding component and an indicator lamp, a gap is formed between the light guiding component and the indicator lamp, and the light guiding component can transmit light into the indicator lamp and make the indicator lamp emit light.

Optionally, the light guide assembly includes light guide column, first fastener and second fastener, the both ends of light guide column are connected respectively first fastener with on the second fastener, the pilot lamp is connected on the second fastener, first fastener is fixed to be set up on the PCB board through first buckle, the second fastener is fixed to be set up on the frame body through the second buckle.

The charging system comprises a charging station, a plurality of mine lamps and a mine lamp charging rack, wherein the charging stations are arranged on a rack body of the mine lamp charging rack, each charging station comprises a PCB (printed circuit board) and a first charging electrode and a second charging electrode which are arranged on the PCB, and the indicating mechanism is connected to the PCB; the miner lamp further comprises a third charging electrode and a fourth charging electrode, and when the third charging electrode is connected with the second charging electrode, the fourth charging electrode is connected with the first charging electrode so that the charging position charges the miner lamp.

Optionally, the lamp body includes casing subassembly, lamp holder subassembly and circuit board subassembly, the lamp holder subassembly with the casing subassembly is connected and forms the installation cavity, the circuit board subassembly is established in the installation cavity, be equipped with on the circuit board subassembly the third electrode that charges with the fourth electrode that charges.

Optionally, the miner lamp has mounted position and charging position, the miner lamp is located when the mounted position, the casing subassembly can overlap and establish on the first charging electrode and follow the length direction motion of first charging electrode, the fourth charging electrode with first charging electrode separation, the third charging electrode with the second charging electrode separation, the miner lamp is located when the charging position, the fourth charging electrode butt is in on the first charging electrode, the third charging electrode butt is in on the second charging electrode, just the first charging electrode can spacing the miner lamp.

Compared with the prior art, the invention has the beneficial effects that: because the latch mechanism is arranged on the frame body, when a user needs to charge the miner lamp, the battery box provided with the battery on the miner lamp can be locked to prevent others from stealing, so that the safety performance of the battery box is greatly improved, the loss risk is reduced, and the protection effect on the battery box is achieved. In addition, the miner lamp charging rack can charge a plurality of miner lamps at the same time, so that the charging efficiency is improved. Meanwhile, the charging system has the advantages of efficient charging and high safety performance.

Drawings

FIG. 1 is a schematic diagram of a charging stand of a miner's lamp according to an embodiment of the invention;

FIG. 2 is a schematic view of a structure of a locking mechanism according to an embodiment of the present invention when a battery case is locked;

FIG. 3 is a schematic structural view of a latch mechanism according to an embodiment of the present invention;

FIG. 4 is a schematic structural view of a transmission member and a latch in cooperative connection according to an embodiment of the present invention;

fig. 5 is a schematic structural view of a miner's lamp according to an embodiment of the invention;

Fig. 6 is a schematic structural view of a battery case according to an embodiment of the present invention;

FIG. 7 is a schematic structural diagram of a connection between an indication mechanism and a charging station according to an embodiment of the present invention;

Fig. 8 is an exploded view of a light guide assembly and an indicator light according to an embodiment of the present invention.

Reference numerals:

100-mine lamp charging rack, 1-rack body, 2-locking mechanism, 21-battery lock, 211-locking, 2111-clamping hook, 2112-desk groove, 212-transmission piece, 2121-lockhole, 22-locking plate, 221-clamping groove, 23-locking rack, 3-indicating mechanism, 31-light guide component, 311-light guide column, 312-first fastener, 313-second fastener and 32-indicating lamp;

200-miner's lamp, 201-lamp body, 2011-shell component, 2012-lamp cap component, 2013-circuit board component, 202-battery box, 2021-box button, 203-third charging electrode, 204-fourth charging electrode;

300-charging potential, 3001-PCB board, 3002-first charging electrode, 3003-second charging electrode.

Detailed Description

In order to make the technical problems solved, the technical scheme adopted and the technical effects achieved by the invention more clear, the technical scheme of the invention is further described below by a specific embodiment in combination with the attached drawings.

A specific structure of a miner's lamp charging rack 100 according to an embodiment of the invention is described below with reference to fig. 1 to 8.

The miner's lamp 200 is typically a corded miner's lamp.

As shown in fig. 1, 5 and 6, the present embodiment provides a miner's lamp charging rack 100 for charging a plurality of miner's lamps 200, the miner's lamp 200 including a lamp body 201 and a battery case 202 equipped with a battery, the miner's lamp charging rack 100 including a rack body 1 and a latch mechanism 2 provided on the rack body 1, the latch mechanism 2 being capable of latching the battery case 202.

It should be noted that, because the latch mechanism 2 is disposed on the frame body 1, when the user needs to charge the miner's lamp 200, the battery box 202 with the battery on the miner's lamp 200 can be locked to prevent others from stealing, so that the safety performance of the battery box 202 is greatly improved, the loss risk is reduced, and the protection effect of the battery box 202 is achieved. In addition, the miner's lamp charging rack 100 can charge a plurality of miner's lamps 200 at the same time, thereby improving charging efficiency.

Alternatively, as shown in fig. 2 and 3, the latch mechanism 2 includes a battery lock 21 and a lock plate 22, the battery lock 21 includes a latch 211, the latch 211 has a locking position and an unlocking position, the lock plate 22 is provided with a slot 221, the battery case 202 is provided with a case buckle 2021, the case buckle 2021 can be arranged on the lock plate 22 in a penetrating manner, and when the latch 211 is located at the locking position, the latch 211 is clamped in the slot 221 to lock the battery case 202; when the lock catch 211 is in the unlock position, the lock catch 211 is disengaged from the card slot 221 to unlock the battery case 202.

It should be noted that, when the miner lamp 200 needs to be charged, the box buckle 2021 on the battery box 202 is inserted into the lock plate 22 on the lock mechanism 2, and then the lock buckle 211 is clamped in the clamping groove 221 on the lock plate 22, at this time, the lock buckle 211 is at the locking position, so as to block the entrance penetrated by the box buckle 2021, thereby locking the battery box 202 and protecting the battery box 202; when the miner lamp 200 needs to be taken away from the miner lamp charging rack 100, the lock catch 211 is separated from the clamping groove 221 on the lock plate 22, the lock catch 211 is positioned at the unlocking position, the battery box 202 is conveniently moved out along the opposite direction of the original path, the battery box 202 is unlocked, the charging, the taking and the maintenance of a user are convenient, the battery box 202 is prevented from being stolen, and the management is also more convenient.

Alternatively, as shown in fig. 2 and 3, the latch 211 includes a latch body and a hook 2111 provided on the latch body, and a slot 2112 is formed between the hook 2111 and the latch body, and the slot 2112 can be located in the slot 221 so that the hook 2111 abuts on the latch plate 22.

It should be noted that, since the table groove 2112 is formed between the hook 2111 of the latch 211 and the latch body, when the latch 211 is at the locking position, the table groove 2112 can be located in the card groove 221 and the hook 2111 abuts against the latch plate 22. Therefore, the engagement between the table groove 2112 and the card groove 221 can further improve the degree of locking between the lock catch 211 and the lock plate 22, thereby further ensuring that the battery case 202 is not stolen.

Optionally, as shown in fig. 2 to 4, the battery lock 21 further includes a transmission member 212 and a key, the transmission member 212 is provided with a lock hole 2121, the transmission member 212 is fixedly connected with the lock catch 211, and when the key is inserted into the lock hole 2121, the key rotates around a central axis of the transmission member 212 to drive the lock catch 211 to rotate. It can be appreciated that when the battery case 202 of the miner lamp 200 needs to be locked, the key is inserted into the lock hole 2121, and the key is turned around the central axis of the transmission member 212 to drive the latch 211 to rotate, so that the table slot 2112 of the latch 211 is located in the clamping slot 221 and the hook 2111 abuts against the locking plate 22, thereby locking the battery case 202, and facilitating operation.

Optionally, as shown in fig. 2, the latch mechanism 2 further includes a lock frame 23, the lock frame 23 is connected to the frame body 1, the battery lock 21 is detachably connected to the lock frame 23, and the lock plate 22 and the lock frame 23 are integrally formed. It will be appreciated that the lock frame 23 serves as a support member for the battery lock 21, and that the battery lock 21 is detachably attached to the lock frame 23 to facilitate removal and replacement of the battery lock 21 from the lock frame 23. In addition, the lock plate 22 and the lock frame 23 are designed into an integrated structure, and can be produced in a large scale by only one die, and the connection strength of the lock plate 22 and the lock frame is high, so that the lock plate 22 is not easy to break, thereby being beneficial to improving the safety performance of the battery box 202 buckled on the lock plate 22.

Optionally, as shown in fig. 1, 7 and 8, the miner's lamp charging rack 100 further includes an indication mechanism 3, where the indication mechanism 3 includes a light guide assembly 31 and an indication lamp 32, a gap is formed between the light guide assembly 31 and the indication lamp 32, and the light guide assembly 31 can transmit light into the indication lamp 32 and make it emit light.

It should be noted that, a gap is formed between the light guide assembly 31 and the indicator lamp 32, and meanwhile, the light guide assembly 31 can transmit light into the indicator lamp 32 to make the indicator lamp 32 emit light, so that a user can intuitively observe the actual charging state of each miner lamp 200, thereby ensuring that the miner lamp 200 charges normally. Because there is the clearance between light guide component 31 and pilot lamp 32, when the actual assembly, can install light guide component 31 on the inboard PCB board 3001 of frame body 1 in advance, install pilot lamp 32 again, can improve the installation effectiveness of indicating mechanism 3 on frame body 1, simultaneously, because the assembly of pilot lamp 32 mechanism of this embodiment is comparatively simple and convenient, and can realize reliable light transmission, the pilot lamp 32 structure among the prior art can solve the problem that the wire of pilot lamp 32 structure damages the pilot lamp 32 structure and causes the life-span of pilot lamp 32 structure short in the assembly process, thereby improve charging system's life, and also can be convenient for the maintenance of indicating mechanism 3 when the problem appears in the use, reduce the cost of maintenance of pilot lamp 32. In addition, the separation setting of light guide component 31 and pilot lamp 32 can also be convenient for make the connection between light guide component 31 and the PCB board 3001 can not receive the restriction of the size or the structure of PCB board 3001 self, can make the overall arrangement scheme of pilot mechanism 3 applicable to multiple PCB board 3001, reduces the installation adjustment cost of pilot lamp 32 mechanism, improves the suitability of pilot mechanism 3.

Alternatively, as shown in fig. 8, the light guide assembly 31 includes a light guide post 311, a first fastener 312 and a second fastener 313, two ends of the light guide post 311 are respectively connected to the first fastener 312 and the second fastener 313, the indicator light 32 is connected to the second fastener 313, the first fastener 312 is fixedly disposed on the PCB 3001 through a first fastener, and the second fastener 313 is fixedly disposed on the frame body 1 through a second fastener.

It should be noted that, when the light guide assembly 31 is mounted on the frame body 1, the first fastener 312 is fastened on the PCB 3001, a groove is designed on a central surface of one end of the first fastener 312, the groove can face the LED light source on the PCB 3001, the LED light source is transmitted to the first fastener 312 through the light emission of the LED light source, the first fastener 312 transmits the LED light source to the second fastener 313 through the light guide post 311, a light guide portion integrally injection molded with the second fastener 313 is designed on a central position of an end surface of the second fastener 313, the light guide post 311 of the first fastener 312 and the light guide portion of the second fastener 313 are disconnected and are not physically connected, but a distance between the two is small during mounting, so that the first fastener 312 and the second fastener 313 are more conveniently mounted.

Specifically, the light guide post 311 has a frosted structure, so that the light of the LED light source can be prevented from being out-diffused while the light guide effect is good, the end face of the light guide post 311 is a smooth face, and even if a discontinuous solid structure is formed between the light guide portions connected by the first fastener 312 and the light guide portion connected by the second fastener 313, the light guide post 311 and the light guide portion have good light guide and transmission performance; the indicator lamp 32 of the charging LED light source is transmitted to the indicator lamp 32 through the first fastener 312, the second fastener 313 and the light guide column 311, and a user can intuitively observe the charging state by observing the brightness of the indicator lamp 32, so that the charging of the miner lamp 200 is normally carried out, the operation of the user and the observation of the charging state are more convenient, the assembly is simpler, and the service life of the indicator lamp 32 is longer.

As shown in fig. 1 and 7, the charging system comprises a plurality of charging stations 300, a miner lamp 200 and a miner lamp charging rack 100, wherein the charging stations 300 are arranged on a rack body 1 of the miner lamp charging rack 100, the charging stations 300 comprise a PCB 3001, a first charging electrode 3002 and a second charging electrode 3003 which are arranged on the PCB 3001, and an indicating mechanism 3 is connected to the PCB 3001; the miner's lamp 200 further includes a third charging electrode 203 and a fourth charging electrode 204, and when the third charging electrode 203 is connected to the second charging electrode 3003, the fourth charging electrode 204 is connected to the first charging electrode 3002, so that the charging station 300 charges the miner's lamp 200. Therefore, the charging system has the advantages of efficient charging and high safety performance.

When the miner's lamp 200 is charged, the fourth charging electrode 204 of the miner's lamp 200 is electrically connected to the first charging electrode 3002 of the charging station 300, and the third charging electrode 203 of the miner's lamp 200 is electrically connected to the second charging electrode 3003 of the charging station 300, so as to electrically connect the miner's lamp 200 to the charging station 300, and further charge the miner's lamp 200, and the miner's lamp 200 can be stably fixed to the miner's lamp charging rack 100.

Optionally, as shown in fig. 5, the lamp body 201 includes a housing assembly 2011, a lamp cap assembly 2012, and a circuit board assembly 2013, where the lamp cap assembly 2012 is connected with the housing assembly 2011 and forms a mounting cavity, the circuit board assembly 2013 is disposed in the mounting cavity, and the circuit board assembly 2013 is provided with a third charging electrode 203 and a fourth charging electrode 204.

Optionally, the miner's lamp 200 has an installation position and a charging position, when the miner's lamp 200 is located at the installation position, the housing assembly 2011 can be sleeved on the first charging electrode 3002 and move along the length direction of the first charging electrode 3002, the fourth charging electrode 204 is separated from the first charging electrode 3002, the third charging electrode 203 is separated from the second charging electrode 3003, when the miner's lamp is located at the charging position, the fourth charging electrode 204 is abutted on the first charging electrode 3002, the third charging electrode 203 is abutted on the second charging electrode 3003, and the first charging electrode 3002 can limit the miner's lamp 200.

When the miner's lamp 200 is at the installation position, the user can sleeve the miner's lamp 200 on the first charging electrode 3002, and when the user moves the miner's lamp 200 from the installation position to the charging position 300, the third charging electrode 203 and the fourth charging electrode 204 on the miner's lamp 200 will also move, and when the miner's lamp 200 enters the charging position 300, the fourth charging electrode 204 abuts against the first charging electrode 3002, and the third charging electrode 203 abuts against the second charging electrode 3003, so that the charging of the miner's lamp 200 can be realized. Meanwhile, the first charging electrode 3002 can limit the miner lamp 200, so that the miner lamp 200 can be stably and reliably installed on the charging station 300 for charging, and can not be directly taken down from the charging station 300 under misoperation of a user, and safe charging of the miner lamp 200 on the charging station 300 is ensured.

As shown in fig. 1 to 8, the operation principle of the charging system of a preferred embodiment is described in detail as follows:

The battery case 202 of the miner's lamp 200 is put through the case buckle 2021 on the lock plate 22, the transmission member 212 is twisted by a key, the lock catch 211 and the lock plate 22 are matched with each other, and the battery case 202 is locked. Inserting the fourth charging electrode 204 of the miner lamp 200 into the first charging electrode 3002 on the charging rack, rotating the lamp body 201, enabling the third charging electrode 203 on the lamp body 201 to contact and be clamped into the second charging electrode 3003 on the charging rack, embedding the first charging electrode 3002 into the cavity of the fourth charging electrode 204, enabling the indicator lamp 32 on the rack body 1 to display light transmitted from the LED light source on the PCB 3001 through the light guide column 311, and visually observing whether the miner lamp 200 is normally charged or not; when the indicator lamp 32 indicates that the miner's lamp 200 is charged, the lamp body 201 is twisted to rotate, the third charging electrode 203 is separated from the charging spring of the second charging electrode 3003, the first charging electrode 3002 is separated from the fourth charging electrode 204, and the lamp body 201 is smoothly separated from the charging electrode 300, thereby completing charging.

In the description of the present specification, reference to the term "some embodiments," "other embodiments," etc., means that a particular feature, structure, material, or characteristic described in connection with the embodiment or example is included in at least one embodiment or example of the invention. In this specification, schematic representations of the above terms do not necessarily refer to the same embodiments or examples. Furthermore, the particular features, structures, materials, or characteristics described may be combined in any suitable manner in any one or more embodiments or examples.

Furthermore, it is to be understood that the terms "upper," "lower," "inner," "outer," "vertical," "horizontal," and the like indicate or relate to a position or a positional relationship based on that shown in the drawings, and are merely for convenience in describing the present invention and simplifying the description, and do not indicate or imply that the apparatus or element in question must have a specific orientation, be constructed and operated in a specific orientation, and thus should not be construed as limiting the present invention.

In the present invention, unless explicitly specified and limited otherwise, terms such as "connected," "mounted," "secured," and the like are to be construed broadly and may be, for example, fixedly attached, detachably attached, or integrally formed; can be mechanically or electrically connected; can be directly connected or indirectly connected through an intermediate medium, and can be communication between two elements or interaction relationship between the two elements. The above-described specific meanings belonging to the present invention will be understood by those of ordinary skill in the art according to the specific circumstances.

Furthermore, features defining "first", "second" may include one or more such features, either explicitly or implicitly, for distinguishing between the descriptive features, and not sequentially, and not lightly. In the description of the present invention, unless otherwise indicated, the meaning of "a plurality" is two or more.

The foregoing is merely exemplary of the present invention, and those skilled in the art should not be considered as limiting the invention, since modifications may be made in the specific embodiments and application scope of the invention in light of the teachings of the present invention.

Claims (7)

1. A miner's lamp charging rack for charging a plurality of miner's lamps (200), the miner's lamp (200) comprising a lamp body (201) and a battery box (202) provided with a battery, characterized in that the miner's lamp charging rack (100) comprises a rack body (1) and a locking mechanism (2) arranged on the rack body (1), the locking mechanism (2) can lock the battery box (202);

The locking mechanism (2) comprises a battery lock (21) and a locking plate (22), the battery lock (21) comprises a lock catch (211), the lock catch (211) is provided with a locking position and an unlocking position, the locking plate (22) is provided with a clamping groove (221), the battery box (202) is provided with a box buckle (2021), the box buckle (2021) can be arranged on the locking plate (22) in a penetrating mode, and when the lock catch (211) is located at the locking position, the lock catch (211) is clamped in the clamping groove (221) to lock the battery box (202); when the lock catch (211) is positioned at the unlocking position, the lock catch (211) is separated from the clamping groove (221) to unlock the battery box (202);

The battery lock (21) further comprises a transmission piece (212) and a key, wherein a lock hole (2121) is formed in the transmission piece (212), the transmission piece (212) is fixedly connected with the lock catch (211), and when the key is inserted into the lock hole (2121), the key rotates around the central shaft of the transmission piece (212) so as to drive the lock catch (211) to rotate;

The locking mechanism (2) further comprises a lock frame (23), the lock frame (23) is connected to the frame body (1), the battery lock (21) is detachably connected to the lock frame (23), and the lock plate (22) and the lock frame (23) are of an integrated structure.

2. The miner's lamp charging rack as claimed in claim 1, characterized in that the latch (211) comprises a latch body and a hook (2111) provided on the latch body, a channel (2112) is formed between the hook (2111) and the latch body, the channel (2112) being able to be located in the slot (221) such that the hook (2111) abuts on the latch plate (22).

3. A miner's lamp charging rack as claimed in claim 1, characterized in that the miner's lamp charging rack further comprises an indication mechanism (3), the indication mechanism (3) comprising a light guide assembly (31) and an indication lamp (32), the light guide assembly (31) and the indication lamp (32) having a gap therebetween, the light guide assembly (31) being capable of transmitting light into the indication lamp (32) and illuminating it.

4. A miner's lamp charging rack as claimed in claim 3, characterized in that the light guide assembly (31) comprises a light guide column (311), a first fastener (312) and a second fastener (313), both ends of the light guide column (311) are respectively connected to the first fastener (312) and the second fastener (313), the indicator lamp (32) is connected to the second fastener (313), the first fastener (312) is fixedly arranged on the PCB board (3001) through a first fastener, and the second fastener (313) is fixedly arranged on the rack body (1) through a second fastener.

5. A charging system, characterized by comprising a charging station (300), the miner's lamp (200) and the miner's lamp charging rack (100) according to claim 3 or 4, wherein the charging stations (300) are multiple and are arranged on the rack body (1) of the miner's lamp charging rack (100), the charging station (300) comprises a PCB board (3001) and a first charging electrode (3002) and a second charging electrode (3003) arranged on the PCB board (3001), and the indicating mechanism (3) is connected on the PCB board (3001); the miner lamp (200) also comprises a third charging electrode (203) and a fourth charging electrode (204), when the third charging electrode (203) is connected with the second charging electrode (3003), the fourth charging electrode (204) is connected with the first charging electrode (3002) so that the charging station (300) charges the miner lamp (200).

6. The charging system of claim 5, wherein the lamp body (201) comprises a housing assembly (2011), a lamp head assembly (2012) and a circuit board assembly (2013), the lamp head assembly (2012) being connected to the housing assembly (2011) and forming a mounting cavity, the circuit board assembly (2013) being disposed in the mounting cavity, the circuit board assembly (2013) having the third charging electrode (203) and the fourth charging electrode (204) disposed thereon.

7. The charging system of claim 6, wherein the miner's lamp (200) has a mounting position and a charging position, the housing assembly (2011) is capable of being sleeved on the first charging electrode (3002) and moving along the length direction of the first charging electrode (3002) when the miner's lamp (200) is located at the mounting position, the fourth charging electrode (204) is separated from the first charging electrode (3002), the third charging electrode (203) is separated from the second charging electrode (3003), the fourth charging electrode (204) is abutted on the first charging electrode (3002) when the miner's lamp (200) is located at the charging position, the third charging electrode (203) is abutted on the second charging electrode (3003), and the first charging electrode (3002) is capable of limiting the miner's lamp (200).