CN213421166U - Split lighter - Google Patents

Abstract

The utility model provides a split type lighter, split type lighter includes: the power supply device is provided with a first end face, and a first power output interface and a second power output interface are arranged on the first end face at intervals; the ignition device is provided with a second end face matched with the first end face, and a first power connector and a second power connector are arranged on the second end face at intervals and used for being plugged with the first power output interface; when the first power connector and the second power connector are respectively plugged in the first power output interface and the second power output interface, the ignition device is fixed on the power device, and the power device can supply power for the ignition device.

Description

Split lighter

Technical Field

The utility model relates to a small-size device technical field that gets fire especially relates to a split type lighter.

Background

The lighter as a small-sized ignition device is a tool frequently used in daily life of people, and brings great convenience to the life of people due to small and exquisite appearance and convenient carrying. However, the existing lighters in the market still have a plurality of defects: firstly, the lighter has a single function, can only meet the ignition requirements of people, and cannot meet the increasing pursuit of the people for the multi-functionalization of the portable tool; secondly, most lighters are disposable products, and the gas in the lighters is consumed or the gas is thrown away because some parts of the lighters are damaged, thereby causing a great deal of waste.

SUMMERY OF THE UTILITY MODEL

The utility model provides a split type lighter, this split type lighter not only have the function of striking sparks, still have the function that charges for outside electronic equipment, satisfy people's daily life simultaneously to the demand of lighter and portable power source.

The embodiment of the utility model provides a split type lighter, split type lighter includes:

the power supply device is provided with a first end face, and a first power output interface and a second power output interface are arranged on the first end face at intervals; and

the ignition device is provided with a second end face matched with the first end face, and a first power connector and a second power connector are arranged on the second end face at intervals and used for being plugged with the first power output interface; when the first power connector and the second power connector are respectively plugged in the first power output interface and the second power output interface, the ignition device is fixed on the power device, and the power device can supply power for the ignition device.

The split lighter is detachably arranged on the power supply device through the splicing of the power output interface and the power supply connector, so that the split lighter and the combined lighter are realized. The integrated lighter has the basic ignition function of the lighter, and the power supply device of the split lighter can charge external electronic equipment so as to meet the pursuit of people on the multifunction of the portable tool.

Drawings

Fig. 1 a-1 b are schematic structural views of a split lighter provided by an embodiment of the present invention.

Fig. 2 is a schematic view of a part of the structure of the ignition device provided by the embodiment of the present invention.

Fig. 3 is a schematic structural diagram of a cover and a flip-open mechanism according to an embodiment of the present invention.

Fig. 4 is a top view of a first end surface of a power supply device according to an embodiment of the present invention.

Fig. 5 is a plan view of a second end surface of the ignition device provided by the embodiment of the present invention.

Fig. 6 is a top view of a third end surface of the ignition device according to the first embodiment of the present invention.

Fig. 7 is a top view of a third end surface of the ignition device according to the first embodiment of the present invention.

Fig. 8 is a top view of a third end surface of an ignition device according to a second embodiment of the present invention.

Fig. 9 is a fourth end plane view of the power supply device according to the embodiment of the present invention.

Detailed Description

For a clearer and more accurate understanding of the present invention, reference will now be made to the following detailed description taken in conjunction with the accompanying drawings. Description of drawings the accompanying drawings illustrate examples of embodiments of the present invention, in which like reference numerals refer to like elements. It is to be understood that the drawings are not to scale as the actual practice of the invention, but are for illustrative purposes and are not drawn to scale.

Please refer to fig. 1a and fig. 1b, which are schematic structural views of a lighter 99 according to an embodiment of the present invention. The lighter 99 includes a power supply 100, an ignition device 200, and a light emitting device 300. Specifically, the power supply device 100 includes a second body 130, and a first end surface 110 and a fourth end surface 120 disposed at two ends of the second body 130, wherein the first end surface 110, the second body 130, and the fourth end surface 120 are sequentially connected to form a first mounting space 140. The first end surface 110 and the fourth end surface 120 are disposed opposite to each other.

The second body 130 is provided with a power indicator lamp 131, and a power button 132 positioned at one side of the power indicator lamp 131. The power indicator 131 can show the remaining power of the battery installed in the first installation space 140. Specifically, when the power button 132 is pressed down and the power indicator 131 is fully turned on, the remaining battery power is 70% -100%; if the electric quantity indicator lamp 131 is on for two, the residual electric quantity of the battery is 40% -70%; if one electric quantity indicator lamp 131 is lighted, the residual electric quantity of the battery is 10% -40%; if none of the power indicator lamps 131 is on, it indicates that the remaining battery power is less than 10%. The manner in which the power indicator 131 indicates the remaining power of the battery is not limited to this, and is not described herein. When the battery mounted in the first mounting space 140 is charged, the full charge indicator lamp 131 is fully turned on, indicating that the battery is fully charged.

Referring to fig. 9, the second body 130 is further provided with a control button 133, and the control button 133 is used for controlling the light emitting device 300 disposed on the fourth end surface 120 of the power device 100 away from the first end surface 110. The power supply device 100 is electrically connected to the light emitting device 300 and provides power to the light emitting device 300. Specifically, the control button 133 is continuously pressed twice, the light emitting device 300 is powered on and emits a light beam, and the control button 133 is pressed again, and the light emitting device 300 stops emitting light. The manner in which the control button 133 controls the light emitting device 300 is not limited thereto, and is not described herein. The light emitting device 300 may be, but not limited to, a purple light, a lighting lamp, and an emergency signal lamp, and may also be, but not limited to, a combination of two or three of a purple light, a lighting lamp, and an emergency signal lamp. The purple light emitted by the purple light lamp can be used for jewelry antique identification, anti-counterfeiting detection of paper money, fluorescence detection of clothes and the like; the illuminating lamp can be used for illumination under dark conditions and the like; the emergency help-seeking signal lamp can be used for seeking help in emergency.

In some possible embodiments, the control button 133 may be disposed on the fourth end surface 120.

In the above embodiment, the split-type lighter 99 includes the light emitting device 300, and the light emitting device 300 can be, but is not limited to, a purple light, an emergency signal lamp, an illumination lamp, and the like, so that the split-type lighter 99 has multiple functions, the functionality of the split-type lighter 99 is increased, and the use experience of the lighter is greatly improved.

Please refer to fig. 1b and fig. 2 in combination, which are schematic structural views of an ignition device 200 according to an embodiment of the present invention. The ignition device 200 has a first body 230, a second end surface 210 and a third end surface 220 disposed at both ends of the first body 230, and the second end surface 210, the first body 230, and the third end surface 220 are sequentially connected to form a second mounting space 240. The second end surface 210 is opposite to the third end surface 220. The second end face 210 mates with the first end face 110.

Referring to fig. 2 and 3 in combination, the ignitor 200 also has a cover 260 and a flip-top mechanism 250. The flip mechanism 250 includes a protrusion 251, a rotation shaft 252, a rotation shaft spring 253, a groove 254, and a rotation column 255. The cover 260 is connected to the first body 230 by the flip mechanism 250. Specifically, a rotation column 255 extends from an end of the cover 260 facing a bottom surface 261 of the cover of the ignition device 200, a rotation shaft 252 is simultaneously inserted through the first body 230 and an end of the rotation column 255 away from the bottom surface 261 of the cover, and a rotation shaft spring 253 is inserted through the rotation shaft 252.

The flip mechanism 250 is used for driving the cover 260 to close the first body 230 and cover the third end face 220. Specifically, a protrusion 251 is disposed on an end of the bottom surface 261 of the cover away from the rotary column 255, and the protrusion 251 can be inserted into a groove 254 disposed on an end of the third end surface 220 away from the rotary shaft 252. When the projection 251 is inserted into the groove 254, the third end surface 220 is covered in the cover 260. The flip cover mechanism 250 is further configured to actuate the cover 260 to open with respect to the first body 230 such that the third end face 220 is exposed. Specifically, when the projection 251 is fitted into the groove 254, the spindle spring 253 is in a compressed state. When the lighter is used to ignite, the cover 260 is pushed from the end extending beyond the rotary post 255 to the opposite end, whereupon the protrusions 251 disengage from the recesses 254. Since the spindle spring 253 has a restoring force in a compressed state, the cover 260 is rotated about the spindle 252 by the rotation post 255 and exposes the third end surface 220 by the restoring force of the spindle spring 253.

Please refer to fig. 4, which is a top view of the first end surface 110 of the power device 100 according to an embodiment of the present invention. The first end surface 110 is provided with a first power output interface 111 and a second power output interface 112 at an interval. Specifically, the first power output interface 111 and the second power output interface 112 are linearly arranged at an interval on the first end surface 110. The first power output interface 111 and the second power output interface 112 are both a-type USB sockets. The output voltage of the first power output interface 111 is different from the output voltage of the second power output interface 112, specifically, the output voltage of the first power output interface 111 is 4V, and the output voltage of the second power output interface 112 is 5V. The power supply apparatus 100 can supply power to an external electronic device such as a mobile phone, an electronic watch, etc. through the voltage output by the second power output interface 112.

The first end surface 110 is further provided with a first power input interface 113 and a second power input interface 114 at an interval, and specifically, the first power input interface 113 and the second power input interface 114 correspond to the first power output interface 111 and the second power output interface 112 respectively. The first power input interface 113 and the second power input interface 114 are used to charge a battery mounted in the first mounting space 140. The first power input interface 113 and the second power input interface 114 cannot charge the battery at the same time. The first power input interface 113 and the second power input interface 114 are a Micro-USB socket and a Type-C socket, respectively. Specifically, when the first power input interface 113 is a Micro-USB socket, the second power input interface 114 is a Type-C socket; when the first power input interface 113 is a Type-C socket, the second power input interface 114 is a Micro-USB socket.

In the above embodiment, the power supply device 100 has the function of a portable power supply, which increases the convenience of the split lighter 99 and meets the pursuit of people for multi-functionalization of portable tools. The power supply device 100 is simultaneously provided with the Micro-USB socket and the Type-C socket, thereby increasing convenience in charging the battery installed in the first installation space 140.

Please refer to fig. 5, which is a top view of the second end face 210 of the ignition device 200 according to an embodiment of the present invention. The second end face 210 is provided with a first power connector 211 and a second power connector 212 at an interval. Accordingly, the first power connector 211 and the second power connector 212 are arranged on the second end face 210 at intervals. The first power connector 211 and the second power connector 212 are both a-type USB plugs. The first power connector 211 is used for being plugged with the first power output interface 111, and the second power connector 212 is used for being plugged with the second power output interface 112. When the first power connector 211 and the second power connector 212 are respectively plugged in the first power output interface 111 and the second power output interface 112, the ignition device 200 is fixed to the power device 100, and the power device 100 can supply power to the ignition device 200. Specifically, when the first power connector 211 and the second power connector 212 are respectively plugged in the first power output interface 111 and the second power output interface 112, the first power connector 211 is electrically connected to the first power output interface 111, and the power supply device 100 supplies power to the ignition device 200 through the first power connector 211. The second power connector 212 is not conductive with the second power output interface 112.

In some possible embodiments, the second power connector 212 may be a connector with the same shape as the type a USB plug, and the material of the connector may be, but is not limited to, plastic, etc.

In the above embodiment, the ignition device 200 is fixed to the power supply device 100 by inserting two power connectors into two power output interfaces, so that the ignition device 200 is more firmly fixed to the power supply device 100. Meanwhile, the two power connectors are respectively connected with the two power output interfaces in an inserted mode, so that the lighter is split and integrated. The integrated lighter has the basic ignition function of the lighter, and the power supply device 100 of the separate lighter can charge the external electronic equipment. The power supply device 100 is further provided with a protection system, and when an external power supply connector of an external electronic product is plugged into the first power output interface 211, the protection system is started, so that the external power supply connector is not conducted with the first power output interface 211, and damage to external electronic equipment is avoided.

In some possible embodiments, the power supply device 100 can simultaneously supply power to the ignition device 200 through the first power output interface 111 and the second power output interface 112. Specifically, when the first power connector 211 and the second power connector 212 are respectively plugged in the first power output interface 111 and the second power output interface 112, the first power connector 211 is electrically connected to the first power output interface 111, and the second power connector 212 is electrically connected to the second power output interface 112.

Please refer to fig. 6, which is a top view of a third end surface 220 of the ignition device 200 according to the first embodiment of the present invention. The third end surface 220 is provided with a pair of electrodes 223, and an ignition button 222 located on the electrode 223 side. Wherein the electrode 223 includes an anode contact and a cathode contact disposed at intervals, and the anode contact and the cathode contact are electrically connected. When the ignition button 222 is pressed, the anode and cathode contacts are energized and an arc is generated, which is used for ignition. Specifically, when the first power connector 211 and the second power connector 212 are respectively plugged in the first power output interface 111 and the second power output interface 112, the power supply device 100 supplies power to the ignition device 200. When the ignition button 222 is depressed, an arc is generated between the energized anode and cathode contacts, which arc can be used to ignite a combustible substance such as a cigarette or the like.

In the above embodiment, the ignition device 200 is provided with the cover 260 and the flip-open mechanism 250, when the third end face 220 is covered in the cover 260, the electrode 223 and the ignition button 222 are both arranged in the closed space formed by the cover 260 and the third end face 220, so that the situation that the ignition button 222 is accidentally triggered is avoided, and the safety of the split lighter 99 is greatly improved.

Please refer to fig. 7, which is a top view of the third end surface 220 of the ignition device 200 according to the first embodiment of the present invention. The third end face 220 of the first embodiment differs from the third end face 220 of the first embodiment in that the third end face 220 of the first embodiment is provided with two pairs of electrodes 223, the two pairs of electrodes 223 being arranged in parallel side by side, each pair of electrodes 223 comprising an anode contact and a cathode contact arranged at a distance. When the ignition button 222 is pressed, an arc is generated between the anode contact and the cathode contact of the same pair of electrodes 223 that are energized, and two arcs are generated by the two pairs of electrodes 223. Wherein the two arcs are parallel to each other. Other structures of the third end surface 220 of the first specific embodiment provided by the second embodiment are substantially the same as those of the third end surface 220 provided by the first embodiment, and are not described herein again.

Please refer to fig. 8, which is a top view of a third end surface 220 of an ignition device 200 according to a second embodiment of the present invention. The third end face 220 of the second embodiment differs from the third end face 220 of the first embodiment in that the two pairs of electrodes 223 of the third end face 220 of the second embodiment are arranged crosswise. When the ignition button 222 is pressed, an arc is generated between the anode contact and the cathode contact of the same pair of electrodes 223 that are energized, and two arcs are generated by the two pairs of electrodes 223. Wherein the two arcs are crossed. Other structures of the third end surface 220 of the second embodiment provided in the second embodiment are substantially the same as those of the third end surface 220 of the first embodiment provided in the second embodiment, and are not described herein again.

In the above embodiment, the third end face 220 is provided with two pairs of electrodes 223, and when the power is applied, the two pairs of electrodes 223 generate two arcs, so that the ignition area is increased, and the speed of igniting the combustible is increased. Meanwhile, the two electric arcs are not easily influenced by wind power, and the probability of igniting combustible materials is greatly improved.

It will be apparent to those skilled in the art that various changes and modifications may be made without departing from the spirit and scope of the invention. Thus, to the extent that such modifications and variations fall within the scope of the invention and the equivalent techniques thereof, it is intended that the present invention also encompass such modifications and variations.

The above description is only for the purpose of illustrating the preferred embodiments of the present invention and is not to be construed as limiting the scope of the present invention, therefore, the present invention is not limited by the following claims.

Claims (10)

1. A split lighter, comprising:

the power supply device is provided with a first end face, and a first power output interface and a second power output interface are arranged on the first end face at intervals; and

the ignition device is provided with a second end face matched with the first end face, and a first power connector and a second power connector are arranged on the second end face at intervals and used for being plugged with the first power output interface; when the first power connector and the second power connector are respectively plugged in the first power output interface and the second power output interface, the ignition device is fixed on the power device, and the power device can supply power for the ignition device.

2. The lighter of claim 1, wherein when the ignition device is secured to the power supply unit, the first power connector is electrically connected to the first power output interface, and the power supply unit supplies power to the ignition device through the first power connector; the second power supply connector is not conducted with the second power supply output interface.

3. The lighter of claim 1, wherein the first power output port has an output voltage different from the output voltage of the second power output port.

4. The lighter of claim 3, wherein the second power output interface outputs a voltage for powering an external electronic device.

5. The lighter of claim 3, wherein the first power output interface outputs a voltage of 4V; and the voltage output by the second power supply output interface is 5V.

6. The lighter of claim 1, wherein the ignition device has a third end opposite the second end, the third end being provided with at least one pair of electrodes, each pair of electrodes including spaced apart anode and cathode contacts, the anode and cathode contacts being electrically connected, and an ignition button on one side of the electrodes, the ignition button being depressed to energize the anode and cathode contacts and generate an arc, the arc serving to ignite.

7. The lighter of claim 6, wherein the third end surface has two pairs of electrodes, and the two pairs of electrodes are disposed in parallel side by side or criss-cross.

8. The lighter of claim 1, wherein the first power output port and the second power output port are linearly spaced from each other at the first end surface.

9. The lighter of claim 1, further comprising a light emitting device disposed on a fourth end of the power supply device remote from the first end, wherein the power supply device is electrically connected to the light emitting device and provides power to the light emitting device.

10. The lighter of claim 6, wherein the ignitor further comprises a first body, a cover connected to the first body by the flip-top mechanism, and a flip-top mechanism that actuates the cover to close the first body and cover the third end; the flip mechanism is further used for driving the cover to open relative to the first body, so that the third end face is exposed.

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