Touch and blow dual control desk lamp
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Utility models(China)
- Current Assignee / Owner
- NINGBO JINLIDA LAMP DECORATION
- Filing Date
- 2025-06-24
- Publication Date
- 2026-06-26
AI Technical Summary
The existing control methods for desk lamps are too simplistic, which affects the user experience and convenience.
Design a touch and air-blowing dual-control desk lamp, which combines a touch panel and an air-blowing sensor for control. The light source board can be controlled by sliding a finger across the touch surface or blowing air into the air-blowing hole, realizing two control modes: touch and air-blowing.
It enhances the user experience and convenience, with the air vent serving as a reference point to improve the precision of sliding control, while also adding fun and keeping the lamp clean.
Smart Images

Figure CN224415087U_ABST
Abstract
Description
Technical Field
[0001] This utility model relates to the field of desk lamp technology, and in particular to a touch-blowing dual-control desk lamp. Background Technology
[0002] Desk lamps are a common lighting device, and existing desk lamps are controlled by touch and air. Touch-type desk lamps have a touchpad; sliding a finger on the touchpad controls the lamp's on / off state, brightness, etc. Air-type desk lamps have sensors installed; blowing air onto the sensor controls the lamp's on / off state. Most existing desk lamps have only one control method, relying solely on touch or air control, which affects the user experience and convenience. Utility Model Content
[0003] To address the shortcomings of existing desk lamps with limited control methods, this invention proposes a desk lamp that can be controlled by touch and breath, thereby enhancing the user experience and convenience.
[0004] To achieve the above objectives, the present invention adopts the following technical solution:
[0005] A touch-and-blow dual-control desk lamp includes a lamp base, a light-transmitting plate, a microphone sensor, a controller, a light source board, and a metal touch panel. The light-transmitting plate is installed on the upper part of the lamp base, and the metal touch panel is installed on the upper side of the light-transmitting plate. The controller and the light source board are installed between the light-transmitting plate and the metal touch panel. A circular touch surface is provided on the upper side of the metal touch panel, and a blow hole is provided in the center of the touch surface. The microphone sensor is installed on the lower side of the blow hole. The metal touch panel and the microphone sensor are both connected to the light source board through the controller. The light source board can be controlled by sliding on the touch surface or blowing air into the blow hole.
[0006] With the above settings, it has two control modes: touch and air blowing, which improves the user experience and convenience. In addition, the air blowing hole serves two purposes: it guides the airflow, and when the user slides their finger on the touch surface, they can use the air blowing hole as a reference point, making the sliding control more precise and further enhancing the user experience.
[0007] Furthermore, the desk lamp also includes a battery and a ribbon cable. A first mounting hole is provided on the light-transmitting plate, and a battery compartment and a cable tray are provided in the lamp holder. The battery is installed in the battery compartment, and one end of the ribbon cable is connected to the battery, while the other end is connected to the controller through the cable tray and the first mounting hole.
[0008] With the above setup, the battery powers the desk lamp via a ribbon cable.
[0009] Furthermore, the lamp holder includes a base and a connector. The base is made of wood and has a first groove and the aforementioned battery compartment. The connector is made of metal and its lower end is detachably connected to the upper end of the base. The connector has a second groove, the lower end of which is connected to the upper end of the first groove to form the aforementioned groove. A light-transmitting plate is installed on the upper end of the connector.
[0010] The above settings enhance the aesthetics and perceived quality of the lamp holder.
[0011] Furthermore, a slot is provided on the upper side of the base, and a pin that fits the slot is integrally formed at the lower end of the connector. The pin is inserted into the slot, and a sealing ring is provided between the pin and the slot.
[0012] The above design facilitates the assembly and disassembly of the base and connector, ensures a good seal between the pin and the slot, and provides dust and water protection.
[0013] Furthermore, a charging port is provided on one side of the base, which is connected to the battery.
[0014] The above settings make it easy to charge the battery via the charging port.
[0015] Furthermore, the desk lamp also includes a locking bolt with a through hole running through it axially. The locking bolt passes through the first mounting hole and is threaded to the upper end of the lamp holder to lock the light-transmitting plate to the upper end of the lamp holder. The ribbon cable passes through the through hole and is connected to the controller.
[0016] The above setup makes it easy to lock the light-transmitting panel onto the lamp holder.
[0017] Furthermore, the desk lamp also includes connectors, which include an upper connecting plate, a lower connecting plate, and a transition plate integrally formed between the upper and lower connecting plates. The lower connecting plate is provided with bolt holes, through which locking bolts pass to lock the lower connecting plate onto the upper side of the light-transmitting plate. The upper connecting plate is provided with threaded holes, and the light source plate is provided with a second mounting hole. A threaded sleeve is integrally formed on the lower side of the metal touch panel, and the microphone sensor is located in the threaded sleeve. The threaded sleeve is integrally formed with a step along its outer circumference. The threaded sleeve passes through the second mounting hole and engages with the threaded hole, and the step locks the light source plate onto the upper connecting plate.
[0018] The above settings facilitate the installation of the light source board and the metal touch panel. Attached Figure Description
[0019] Figure 1 This is a schematic diagram of a table lamp as an example.
[0020] Figure 2 This is a cross-sectional view of the table lamp used in this embodiment.
[0021] Figure 3 for Figure 2 Enlarged view of point A. Detailed Implementation
[0022] The technical solution of this utility model will be further described in detail below through embodiments and in conjunction with the accompanying drawings.
[0023] like Figures 1 to 3 A dual-control desk lamp with touch and air blowing control includes a lamp base 3, a light-transmitting plate 4, a microphone sensor 5, a controller 6, a light source board 7, and a metal touch panel 8. The light-transmitting plate 4 is installed on the upper end of the lamp base 3, and the metal touch panel 8 is installed on the upper side of the light-transmitting plate 4. The controller 6 and the light source board 7 are installed between the light-transmitting plate 4 and the metal touch panel 8. A circular touch surface 9 is provided on the upper side of the metal touch panel 8, and an air blowing hole 10 is provided at the center of the touch surface 9. The microphone sensor 5 is installed on the lower side of the air blowing hole 10. The metal touch panel 8 and the microphone sensor 5 are both connected to the light source board 7 through the controller 6. The light source board 7 can be controlled by sliding on the touch surface 9 or blowing air into the air blowing hole 10.
[0024] With the above settings, it has two control modes: touch and air blowing, which improves the user experience and convenience. In addition, the air blowing hole 10 serves two purposes: firstly, it guides the flow of air, and secondly, when the user slides their finger on the touch surface 9, they can use the air blowing hole 10 as a reference point, making the sliding control more precise and further enhancing the user experience.
[0025] Specifically, when the desk lamp is in use, the lower end of the lamp base 3 is placed on a support such as a desktop. The lamp base 3 can integrate a power supply or be connected to an external power supply to power the controller 6, the light source board 7, and the microphone sensor 5. The light-transmitting plate 4 is horizontally installed on the upper end of the lamp base 3. In this application, the light-transmitting plate 4 is circular, and the center of the light-transmitting plate 4 is installed on the upper end of the lamp base 3. The metal touch panel 8 is specifically a shell structure with an open lower side. The metal touch panel 8 and the light-transmitting plate 4 form a relatively closed mounting chamber to accommodate the controller 6, the light source board 7, and the microphone sensor 5. The controller 6 is specifically installed on the light source board 7. When the user touches the touch surface 9 of the metal touch panel 8 with their finger, they control the on / off state, brightness, or color temperature of the light source board 7. The principle is roughly as follows: when the user touches the metal touch panel 8 with their finger, the capacitance parameter corresponding to the metal touch panel 8 changes. The detector integrated in the controller 6 converts the capacitance signal into an electrical signal to control the light. The switching, brightness, or color temperature of the source board 7 can be referenced from existing touchpad-controlled desk lamps, and will not be elaborated here. In this application, an air hole 10 is set in the center of the touch surface 9. When using touch control, there is a reference point at the center, which facilitates radial or circumferential sliding and improves the accuracy of control. The source board 7 of this application specifically uses an LED light source, which has the advantages of low energy consumption and high brightness. In addition, the desk lamp of this application can also be controlled by blowing air. Specifically, when the user blows air into the air hole 10, the airflow passes through the air hole 10 and impacts the microphone sensor 5. After the microphone sensor 5 detects the sound wave of the corresponding frequency, the controller 6 controls the source board 7 to turn on. After blowing air into the air hole 10 again, the source board 7 turns off. The desk lamp of this application integrates a blow-air switch function, which is similar to blowing out a candle to increase fun. In addition, when the fingers are dirty, the blow-air control can help keep the desk lamp clean and prevent it from getting dirty.
[0026] As one implementation, the desk lamp also includes a battery 11 and a ribbon cable 12. The light-transmitting plate 4 is provided with a first mounting hole 13. The lamp holder 3 is provided with a battery compartment 15 and a wire groove 14. The battery 11 is installed in the battery compartment 15. One end of the ribbon cable 12 is connected to the battery 11, and the other end is connected to the controller 6 through the wire groove 14 and the first mounting hole 13.
[0027] With the above setup, battery 11 supplies power to the desk lamp via ribbon cable 12.
[0028] Specifically, the battery 11 of this application supplies power to the controller 6 through the ribbon cable 12. The controller 6 delivers current to the light source board 7 and the microphone sensor 5, so that the components in the desk lamp can obtain the power required for operation.
[0029] As one implementation, the lamp holder 3 includes a base 31 and a connector 32. The base 31 is made of wood and has a first groove 141 and the aforementioned battery compartment 15. The connector 32 is made of metal and its lower end is detachably connected to the upper end of the base 31. The connector 32 has a second groove 142 and its lower end is connected to the upper end of the first groove 141 to form the aforementioned wire groove 14. The light-transmitting plate 4 is installed on the upper end of the connector 32.
[0030] The above settings enhance the aesthetics and perceived quality of lamp holder 3.
[0031] The lamp holder 3 of this application is basically conical. The base 31 and the connector 32 are made of different materials to enhance the sense of quality and visual impact. The battery compartment 15 inside the base 31 has a large processing space. Installing the battery 11 in the battery compartment 15 helps to lower the center of gravity of the desk lamp and improve the stability of the desk lamp. The lower end of the ribbon cable 12 of this application is connected to the battery 11. The ribbon cable 12 goes upward through the first slot 141, the second slot 142, and the first mounting hole 13 to connect to the controller 6.
[0032] As one implementation, a slot 16 is provided on the upper side of the base 31, and a pin 17 adapted to the slot 16 is integrally formed at the lower end of the connector 32. The pin 17 is inserted into the slot 16, and a sealing ring 18 is provided between the pin 17 and the slot 16.
[0033] The above-mentioned design facilitates the assembly and disassembly of the base 31 and the connector 32, ensures good sealing between the pin 17 and the slot 16, and provides dust and water protection.
[0034] As one implementation, a charging port 19 is provided on one side of the base 31, and the charging port 19 is connected to the battery 11.
[0035] The above settings facilitate charging of battery 11 via charging port 19.
[0036] The charging port 19 of this application specifically adopts a Type-C interface, and the battery 11 specifically adopts a lithium battery, which makes it convenient to charge the battery 11 through a common charging cable.
[0037] As one implementation, the desk lamp also includes a locking bolt 20, which has a wire hole 21 through which it passes axially. The locking bolt 20 passes through the first mounting hole 13 and is threaded to the upper end of the lamp holder 3 to lock the light-transmitting plate 4 to the upper end of the lamp holder 3. The ribbon cable 12 passes through the wire hole 21 and is connected to the controller 6.
[0038] The above settings make it easy to lock the light-transmitting plate 4 onto the lamp holder 3.
[0039] When installing the light-transmitting plate 4, place the light-transmitting plate 4 horizontally on the upper end of the lamp holder 3. The locking bolt 20 passes downward through the first mounting hole 13 and is threaded to the upper end of the lamp holder 3. After tightening the locking bolt 20, the locking bolt 20 presses the light-transmitting plate 4 onto the lamp holder 3. The wire hole 21 in the locking bolt 20 is connected to the upper end of the wire groove 14. The ribbon cable 12 passes through the wire groove 14 and the wire hole 21 and is connected to the controller 6.
[0040] As one implementation, the desk lamp also includes a connector 22, which includes an upper connecting plate 221, a lower connecting plate 222, and a transition plate 223 integrally formed between the upper connecting plate 221 and the lower connecting plate 222. The lower connecting plate 222 is provided with bolt holes 224, and locking bolts 20 pass through the bolt holes 224 to lock the lower connecting plate 222 onto the upper side of the light-transmitting plate 4. The upper connecting plate 221 is provided with threaded holes, and the light source plate 7 is provided with a second mounting hole 23. The lower side of the metal touch panel 8 is integrally formed with a threaded sleeve 24, and the microphone sensor 5 is disposed in the threaded sleeve 24. The threaded sleeve 24 is integrally formed with a step 25 along its outer circumference. The threaded sleeve 24 passes through the second mounting hole 23 and engages with the threaded hole. The step 25 locks the light source plate 7 onto the upper connecting plate 221.
[0041] The above settings facilitate the installation of the light source board 7 and the metal touch panel 8.
[0042] When assembling the desk lamp, first place the light-transmitting plate 4 horizontally on the upper end of the lamp holder 3. Then, place the lower connecting plate 222 of the connector 22 on the upper side of the light-transmitting plate 4. The bolt hole 224 of the lower connecting plate 222 corresponds to the position of the first mounting hole 13 of the light-transmitting plate 4. After the locking bolt 20 passes through the bolt hole 224 and the first mounting hole 13, it is threaded to the lamp holder 3. After tightening the locking bolt 20, the connector 22 and the light-transmitting plate 4 are locked together on the lamp holder 3. Then, place the light source plate 7 horizontally on the upper connecting plate 221. Align the threaded sleeve 24 on the lower side of the metal touch plate 8 with the threaded hole and tighten the threaded sleeve 24. The step 25 locks the light source plate 7 on the upper connecting plate 221. At the same time, the lower edge of the metal touch plate 8 just covers the light-transmitting plate 4, thus completing the assembly of the desk lamp.
[0043] It should be understood that those skilled in the art can make improvements or modifications based on the above description, and all such improvements and modifications should fall within the protection scope of the appended claims.
Claims
1. A touch-sensitive, air-blowing dual-control desk lamp, characterized in that, The device includes a lamp holder, a light-transmitting plate, a microphone sensor, a controller, a light source board, and a metal touch panel. The light-transmitting plate is mounted on the upper part of the lamp holder, and the metal touch panel is mounted on the upper side of the light-transmitting plate. The controller and the light source board are mounted between the light-transmitting plate and the metal touch panel. The upper side of the metal touch panel has a circular touch surface, and the center of the touch surface has an air hole. The microphone sensor is mounted below the air hole. The metal touch panel and the microphone sensor are both connected to the light source board through the controller. They can slide on the touch surface or blow air into the air hole to control the light source board.
2. The touch-sensitive, air-blowing dual-control desk lamp according to claim 1, characterized in that, The desk lamp also includes a battery and a ribbon cable. A first mounting hole is provided on the light-transmitting plate. A battery compartment and a wire groove are provided in the lamp holder. The battery is installed in the battery compartment. One end of the ribbon cable is connected to the battery, and the other end is connected to the controller through the wire groove and the first mounting hole.
3. A touch-sensitive, air-blowing dual-control desk lamp according to claim 2, characterized in that, The lamp holder includes a base and a connector. The base is made of wood and has a first groove and the aforementioned battery compartment. The connector is made of metal and its lower end is detachably connected to the upper end of the base. The connector has a second groove, the lower end of which is connected to the upper end of the first groove to form the aforementioned groove. The light-transmitting plate is installed on the upper end of the connector.
4. A touch-sensitive, air-blowing dual-control desk lamp according to claim 3, characterized in that, The upper side of the base is provided with a slot, and the lower end of the connector is integrally formed with a pin that is adapted to the slot. The pin is inserted into the slot, and a sealing ring is provided between the pin and the slot.
5. A touch-sensitive, air-blowing dual-control desk lamp according to claim 3, characterized in that, A charging port is provided on one side of the base, and the charging port is connected to the battery.
6. A touch-sensitive, air-blowing dual-control desk lamp according to claim 2, characterized in that, The desk lamp also includes a locking bolt with a through hole extending axially through it. The locking bolt passes through the first mounting hole and is threaded to the upper end of the lamp holder to lock the light-transmitting plate to the upper end of the lamp holder. The ribbon cable passes through the through hole and is connected to the controller.
7. A touch-sensitive, air-blowing dual-control desk lamp according to claim 6, characterized in that, The desk lamp also includes a connector, which includes an upper connecting plate, a lower connecting plate, and a transition plate integrally formed between the upper and lower connecting plates. The lower connecting plate is provided with bolt holes, and the locking bolts pass through the bolt holes to lock the lower connecting plate onto the upper side of the light-transmitting plate. The upper connecting plate is provided with threaded holes, and the light source plate is provided with a second mounting hole. The lower side of the metal touch panel is integrally formed with a threaded sleeve, and the microphone sensor is disposed in the threaded sleeve. The threaded sleeve is integrally formed with a step along its outer circumference. The threaded sleeve mates with the threaded hole through the second mounting hole, and the step locks the light source plate onto the upper connecting plate.