WO2020057521A1 - 一种具有感应器的照明灯及其感应器 - Google Patents
一种具有感应器的照明灯及其感应器 Download PDFInfo
- Publication number
- WO2020057521A1 WO2020057521A1 PCT/CN2019/106285 CN2019106285W WO2020057521A1 WO 2020057521 A1 WO2020057521 A1 WO 2020057521A1 CN 2019106285 W CN2019106285 W CN 2019106285W WO 2020057521 A1 WO2020057521 A1 WO 2020057521A1
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- WIPO (PCT)
- Prior art keywords
- sensor
- module
- conductive pin
- lamp
- contact surface
- Prior art date
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- H—ELECTRICITY
- H05—ELECTRIC TECHNIQUES NOT OTHERWISE PROVIDED FOR
- H05B—ELECTRIC HEATING; ELECTRIC LIGHT SOURCES NOT OTHERWISE PROVIDED FOR; CIRCUIT ARRANGEMENTS FOR ELECTRIC LIGHT SOURCES, IN GENERAL
- H05B47/00—Circuit arrangements for operating light sources in general, i.e. where the type of light source is not relevant
- H05B47/10—Controlling the light source
- H05B47/105—Controlling the light source in response to determined parameters
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- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F21—LIGHTING
- F21S—NON-PORTABLE LIGHTING DEVICES; SYSTEMS THEREOF; VEHICLE LIGHTING DEVICES SPECIALLY ADAPTED FOR VEHICLE EXTERIORS
- F21S8/00—Lighting devices intended for fixed installation
-
- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F21—LIGHTING
- F21V—FUNCTIONAL FEATURES OR DETAILS OF LIGHTING DEVICES OR SYSTEMS THEREOF; STRUCTURAL COMBINATIONS OF LIGHTING DEVICES WITH OTHER ARTICLES, NOT OTHERWISE PROVIDED FOR
- F21V23/00—Arrangement of electric circuit elements in or on lighting devices
Definitions
- the invention relates to the field of lighting lamps, in particular to a lighting lamp with a sensor and a sensor thereof.
- the installation of the sensor on the existing lighting device needs to communicate with the internal circuit of the lamp body through a cable, and the sensor also needs to be fixed to the lamp through an adapter and using screws.
- the sensor light plays an important role in facilitating people's travel and saving energy. It is manifested when the sensor senses that a moving object passes the specified range set by the sensor light, the sensor light turns on, and when the moving object passes the above-mentioned specified range, The sensor light is turned off again, which saves energy.
- the traditional induction lamp generally installs the sensor on the side of the lamp body.
- the bracket needs to be fixed to the lamp body with screws, and then the sensor is fixed to the bracket. After the sensor is fixed, complicated wire connections are required. Since the traditional sensors control the AC input, a waterproof junction box is also required to handle the insulation and protection problems at the junction. All the components that make up the induction device are not only costly, but also occupy a large volume. Not only does the wire have a poor aesthetic appearance, but the installation of the sensor on the side can also cause the unequal weight of the lamp to lose balance. Due to market demand, it is more inclined for the client to install the sensing device on its own, but complex assembly steps are difficult to meet the customer's needs. Often, the price of a sensing device exceeds one lighting lamp, which is not conducive to the promotion and use of the sensing lamp. There is no large number of market applications It is far from achieving the purpose of energy conservation.
- the present invention provides a lighting lamp with a sensor and a sensor thereof.
- a lighting lamp with a sensor which includes a lighting lamp, a sensor mounting base, and a sensor, and the sensor mounting base is mounted on the lighting lamp.
- the sensor is detachably installed and connected to the sensor mounting base.
- the sensor is provided with a sensing module inside, and the sensing module generates a corresponding electric signal after detecting the trigger signal to control the lighting lamp to perform a preset control operation.
- the senor is provided with a telescopic conductive pin
- the sensor mounting seat is provided with a contact PCB module
- the sensor is connected to the sensor mounting seat by a plug-in connection
- the telescopic conductive pin is Pressing and conducting with the contact PCB module to achieve electrical connection.
- the senor includes at least one modular circuit board, and the modular circuit board is a sensor main board.
- the control signal is transmitted to the sensor main board, and then transmitted through the sensor main board.
- the telescopic conductive pin is transmitted to the lighting lamp through the contact PCB module control signal in the sensor mounting base to realize function control.
- the sensing module includes any one of a microwave sensing module, an infrared sensing module, a light sensing module, a Bluetooth control module, a WIFI control module, an Internet of Things control module, a smoke sensing module, a fire sensing module, or a security monitoring module or Several combinations.
- the lighting lamp with a central sensor includes a temperature control module, which is integrated in the lighting lamp or provided in the sensor; the temperature control module includes a comparator chip and a thermistor, and The thermistor changes its resistance value as the temperature changes.
- the comparator judges the resistance value of the thermistor to achieve continuous temperature identification. When the comparator judges that the identification value deviates from the set value, it sends a control signal to adjust the lighting Power output of the lamp.
- each of the telescopic conductive pins includes any one of a power supply positive conductive pin, a power supply negative conductive pin, a dimming signal positive conductive pin, an auxiliary signal positive conductive pin, and an auxiliary signal negative conductive pin.
- the contact PCB module is provided with at least three conductive contact surfaces, and the telescopic conductive pins are matched with the conductive contact surfaces.
- a single said conductive contact surface is circular or arc-shaped; one of the plurality of conductive contact surfaces is located at the center position and is circular, and the other conductive contact surface is located at the center position from the center position It is circular in the circumferential direction.
- the contact PCB module includes a first conductive contact surface, a second conductive contact surface, and A third conductive contact surface, the first telescopic conductive pin, the second telescopic conductive pin, and the third telescopic conductive pin are arranged side by side in parallel, the first telescopic conductive pin and the first conductive contact surface are in tight contact, A second telescopic conductive pin is in tight contact with the second conductive contact surface, and the third telescopic conductive pin is in tight contact with the third conductive contact surface; the second conductive contact surface is circular, and the first A conductive contact surface and a third conductive contact surface are both arc-shaped with the second conductive contact surface as a circle center.
- the main board of the sensor is provided with two or more groups of through holes, and the through holes are used for welding the induction module, and the main board of the sensor can be simultaneously installed with at least two induction modules.
- the senor includes a sensor bottom case, a card slot is provided on a side wall of the sensor bottom case, a card block is provided on a side wall of the induction mounting seat, and the docking card slot is connected with the docking
- the card blocks are connected by a rotating plug-in method; the number of the card slots and the card blocks is at least two or more, and the arrangement angles and sizes of the card slots and the card blocks are the same or different.
- a fool-proof protrusion is provided on the inner side wall of the bottom case of the inductor, a fool-proof groove is provided on the outer side wall of the contact PCB module, and the fool-proof protrusion is provided on the contact PCB module. Turn inside the foolproof groove to determine the mounting position of the contact PCB module.
- the sensor mounting base further includes a detachable waterproof cover, and the installation structure of the waterproof cover is the same as that of the sensor.
- the waterproof cover is used to block the sensor when the sensor is not installed. Base for protection.
- the sensor mounting base may be installed at a middle position of the lighting lamp or around the lighting lamp; and / or the sensor further includes a sensor matching the bottom case of the sensor.
- the sensor mounting base is fixedly connected to the lighting lamp; or the sensor mounting base is detachably connected to the lighting lamp.
- the present invention also provides a sensor detachably connected to the surface of a main body of a lighting lamp.
- the sensor is provided with a sensing module.
- the sensing module generates a corresponding electric signal after detecting a trigger signal to control
- the main body of the lamp is turned on or off.
- the illumination lamp with a sensor provided by the present invention and the sensor thereof have the following beneficial effects:
- the invention provides a lighting lamp with a sensor, which not only eliminates the tedious installation steps and complicated wiring methods of the traditional sensor, and has no external wiring, which is not only beautiful but also practical.
- the solution is easy to install and realizes blind plug fast installation And disassembly, high efficiency, safe and reliable.
- the invention provides a lighting lamp with a sensor.
- a lighting lamp with a sensor.
- the electronic connection part of the sensor and the lighting lamp can be realized without external wiring, which is not only beautiful, lightweight, and superior in function; the sensor and the sensor
- the installation method of the mounting base adopts a rotary plug-in structure, which is convenient and fast, and can realize blind screwing, which greatly reduces the installation, production, and application costs, and achieves a very beneficial effect.
- the conductive contact between the telescopic conductive pin and the contact PCB module is used to realize the electrical connection between the sensor and the lighting lamp, thereby replacing the traditional cable.
- the sensor and the sensor base are installed and connected at the same time.
- the electrical connection is completed, and the installation is convenient. There is no need to use an adapter bracket and a cable, and the sense of unity is better.
- the sensor after the sensor is mounted on the base of the lighting lamp, it can be compatible with a variety of sensor devices.
- the standard universal sensor interface only needs to replace different types of sensors to achieve the corresponding functions, such as microwave sensors, infrared sensors, Light sensor, Bluetooth controller, WIFI controller, IoT controller, and special-purpose smoke sensor, fire sensor, security monitoring, etc.
- the product set has many advantages such as standardized interfaces, fast installation and removal, hot plugging, and blind screwing, which greatly improves the maximum use of peripheral components of the product and is also conducive to the sustainable development of the product.
- the illumination lamp with the sensor and its sensor are changed in the traditional manufacturing method, and combined with the existing mature information transmission technology, the sensor mounting base is connected to external devices using a hot-swap installation method, and the sensor The sensor mounting base serves as a standardized unified interface.
- This design effectively increases its overall versatility.
- different modules can be installed in the sensor to achieve the corresponding functions. It can also reshape the existing sensor structure to produce more functional peripherals. Grouped equipment.
- the base of the sensor is designed with multiple internal and external sealing rings to make the overall sealing better.
- the overall installation method adopts the form of layer-by-layer fastening and ring-to-ring connection to effectively ensure the reliability and stability of the product.
- the structure design of the telescopic conductive pin is used to realize signal connection and power supply link, no cable is required, interference is reduced, and short boards for winding and cutting are avoided.
- the illumination lamp with a sensor provided by the present invention and its sensor include multiple foolproof structural designs and are provided with a foolproof logo which is beneficial to the user experience.
- the sensor provided by the invention also has the advantages of simple installation, fast installation and disassembly, blind insertion and foolproof, low-voltage work, multi-purpose universal interface, high efficiency, safety and reliability.
- FIG. 1 is a schematic diagram of the overall structure of a lighting lamp with a sensor provided in a first embodiment of the present invention
- FIG. 2 is a schematic axial view of the overall structure of a lighting lamp with a sensor provided in a first embodiment of the present invention
- FIG. 3 is an exploded schematic view of a partial structure of a lighting lamp with a sensor provided in a first embodiment of the present invention
- FIG. 4 is a partially exploded schematic view of a shaft provided with a sensor-equipped illuminating lamp in a first embodiment of the present invention
- FIG. 5 is a partially enlarged view at a position B shown in FIG. 4; FIG.
- FIG. 6 is a schematic diagram of separating a sensor from a lighting lamp in a lighting lamp with a sensor provided in a first embodiment of the present invention
- FIG. 7 is a partially enlarged view at C shown in FIG. 6;
- FIG. 8 is a side view of a plane optical lens provided with a sensor-equipped illuminating lamp in the first embodiment of the present invention, and is another embodiment of the optical lens 109;
- FIG. 9 is a partial structural diagram of an inductor mounting base provided in a second embodiment of the present invention.
- FIG. 10 is a schematic partial structural diagram corresponding to another embodiment of the inductor mounting base shown in FIG. 9;
- FIG. 11 is a schematic diagram of a circular contact surface and a circular arc contact surface shown on a contact PCB module provided in the present invention.
- FIG. 12 is a schematic diagram of the contact PCB module shown in FIG. 18 in contact with a telescopic conductive pin;
- FIG. 13 is a schematic diagram of a contact with a telescopic conductive pin corresponding to another embodiment of the contact PCB module described in FIG. 18;
- FIG. 14 is a schematic structural diagram of a sensor provided with a sensor without a sensor provided in a third embodiment of the present invention.
- FIG. 15 is a partial enlarged view of the waterproof plug cover and the sensor mounting base in the embodiment shown in FIG. 14; FIG.
- FIG. 16 is a partially enlarged view of the waterproof plug cover and the sensor mounting base in another embodiment of FIG. 14; FIG.
- FIG. 17 is a schematic diagram of an overall structure of an inductor provided in a fourth embodiment of the present invention.
- FIG. 18 is a perspective view of an overall structure of an inductor provided in a fourth embodiment of the present invention.
- FIG. 19 is an exploded view of the overall structure of an inductor provided in a fourth embodiment of the present invention.
- FIG. 20 is a schematic structural diagram of a bottom case of an inductor provided in a fourth embodiment of the present invention.
- FIG. 21 is a schematic structural view of another aspect of the sensor provided in the fifth embodiment of the present invention.
- FIG. 23 is a schematic structural view of another aspect of the sensor provided in the sixth embodiment of the present invention.
- FIG. 24 is an exploded view of the overall structure of the inductor provided in the sixth embodiment of the present invention.
- FIG. 25 is a welding position relationship diagram between a sensor main board and a telescopic conductive pin in a sensor provided in a seventh embodiment of the present invention.
- FIG. 26 is a welding positional relationship diagram between a sensor main board and one of the sensor modules in the sensor provided in the seventh embodiment of the present invention.
- FIG. 27 is a welding positional relationship diagram between a sensor main board and another sensor module in a sensor provided in a seventh embodiment of the present invention.
- FIG. 28 is a structural diagram of an inductor main board in an inductor provided in a seventh embodiment of the present invention, wherein the inductor main board has 5 telescopic conductive pin pad holes;
- FIG. 29 is a schematic diagram of a combination relationship of various components of a lighting lamp with a sensor provided in the present invention.
- FIG. 30 is a reference block diagram of some examples of several functional modules of the sensor module of FIG. 29;
- FIG. 31 is a schematic diagram of a temperature control circuit in a lighting lamp with a sensor in the present invention.
- 32 is a schematic structural diagram of an explosion state of an inductor provided in an eighth embodiment of the present invention.
- 33 is a schematic structural diagram of a partial explosion of an inductor provided in an eighth embodiment of the present invention.
- 34 is a schematic structural diagram of an inner cover of the inductor provided in the inductor according to an eighth embodiment of the present invention.
- 35 is a schematic structural diagram of an inductor housing in the inductor provided in an eighth embodiment of the present invention.
- 36 is a bottom view of the sensor housing in the sensor provided by the eighth embodiment of the present invention.
- FIG. 37 is a schematic structural diagram of an inductor base of the induction device in the eighth embodiment of the present invention.
- 39 is a schematic structural diagram of an assembled state of an inductor provided by an eighth embodiment of the present invention.
- FIG. 40 is a schematic diagram of an explosion state of an induction device provided by a ninth embodiment of the present invention.
- 41 is another embodiment of an illumination lamp provided with a sensor in a tenth embodiment of the present invention.
- FIG. 42 is a schematic structural view of FIG. 41 from another perspective
- FIG. 43 is another embodiment of a lighting lamp provided with a sensor in the eleventh embodiment of the present invention.
- FIG. 44 is a schematic structural view of FIG. 43 from another perspective.
- the first embodiment of the present invention is a lighting lamp with a sensor provided by the present invention and a sensor thereof.
- the lighting lamp includes a lighting lamp 1, a sensor mounting base 2, and a sensor 4.
- the mounting base 2 is integrated on the optical lens 109 of the lighting lamp.
- the sensor 4 is detachably connected to the integrated sensor mounting base 2 in the optical lens 109.
- the detachable connection mode may be a plug-in connection mode.
- the lighting lamp 1 is provided with a sensor mounting base 2.
- the sensor 4 can form a detachable connection with the sensor mounting base 2, and the sensor 4 is directly connected to the sensor mounting base 2.
- the lighting lamp 1 has a lighting function, and the lighting lamp 1 is composed of a driving power source 101, a radiator 102, an LED module 103, and an optical lens 109.
- the driving power source 101 is provided with a dimming module.
- the driving power source 101 can control the brightness of the lighting lamp 1 and turn it on and off.
- the LED module 103 is mounted on the lighting lamp radiator 102.
- the LED module 103 has wires (not labeled), terminals (not labeled), copper pillar pads (not labeled), and wire through holes (not shown) in the middle position.
- the outer circumference of the LED module 103 is The LED chip 1031 is mounted, wherein the conductive copper pillar 104 is soldered to the LED module 103 through a reflow soldering process.
- the inductor 4 is installed at the most intermediate position of the inductor bottom case 401 facing the inductor mounting base 2, and the inside of the inductor mounting base 2 is further A contact PCB module 105 is provided, and the sensor mounting base 2 has a plug-in interface structure, and its circuit is connected to the control line of the driving power source 101.
- the sensor mounting base 2 provides a universal interface for external equipment.
- An end of the sensor 4 facing the touch PCB module 105 is provided with a telescopic conductive pin 403.
- the contact PCB module 105 is fixed on the conductive copper pillar 104 by screws, and the conductive copper pillar 104 leads the circuit on the lighting lamp 1 to the contact PCB module 105, and also serves as a fixed contact PCB module 105.
- the surface of the contact PCB module 105 is provided with a plurality of contact surfaces (not labeled). One end of these contact surfaces is electrically connected to the lighting lamp, and the other end is used for electrical contact with the telescopic conductive pin 403, thereby achieving electrical conduction. purpose.
- the sensor mounting base 2 is a circular hole-shaped slot, and a plurality of clamping blocks 202 are provided on the wall surface of the sensor mounting base 2.
- the wall surface of the sensor mounting base 2 A plurality of clamping blocks 202 are evenly arranged on the circumference.
- clamping block 202 corresponds to a connection boss provided on the wall surface of the sensor mounting base 2
- telescopic conductive pin 403 corresponds to a positive electrode probe, a negative electrode probe, or a signal probe.
- the inductor 4 includes the inductor bottom case 401, and the inductor bottom case 401 may further include a connecting portion 431 that matches the inductor mounting base 2.
- the connecting portion 431 includes a plurality of clamping grooves 407 arranged at regular intervals along the circumferential direction of the connecting portion 431, and the plurality of clamping grooves 407 are surrounded to form a lamp installation cavity.
- a fool-proof groove 106 is provided on the outer side wall of the contact PCB module 105, and the fool-proof protrusion 405 rotates inside the fool-proof groove 106 of the contact PCB module 105. To determine the mounting position of the inductor 4 on the contact PCB module 105.
- the lighting lamp 1 further includes an optical lens 109.
- the optical lens 109 is exposed to the middle contact PCB module 105 after being mounted on the lighting lamp heat sink 102, as shown in FIGS.
- the optical lens 109 is disposed on a light-emitting surface of the LED module 103 and has a convex shape on the light-emitting surface.
- the illuminating lamp 1 includes an optical lens 109 b, and the optical lens 109 b may also directly adopt a planar light-transmitting plate and pass through the optical lens 109 b.
- the light emitting angle is 120 ° to form a uniform lighting effect.
- the sensor mounting base 2 is disposed inside the optical lens 109 b.
- the sensor mounting base 2 includes a waterproof ring pressing arc surface 203, and the waterproof ring pressing arc surface 203.
- a clamping block 202 is provided therein.
- the sensor mounting base 2 is disposed on the optical lens 109 or the sensor mounting base 2 can be fixed on the LED module 103.
- the clamping block 202 on the sensor mounting base 2 is divided into two ways. As shown in FIG. 9, the sensor mounting base 2 is a symmetrical and equal-sized clamping block 202 distribution method, and its main effect is that there is no specific installation position requirement. In the illustration, six equal clamping blocks 202 can be seen, representing the induction.
- the device 4 can be installed from 6 different angles, so the limitation of this method is small, and the multi-angle installation is suitable for making some external devices that do not need to distinguish the polarity of conducting electrons.
- the wireless monitoring module only needs to draw power from the lamp, and it has two positive and negative angles.
- the middle position of the sensor 4 can be used as the power supply negative electrode, and the two conductive pins on the side can be used as the positive electrode. Therefore, it will no longer need to distinguish between positions, and can always maintain the correctness of electrical connection from any angle. Due to the directional characteristics of the monitoring image, if the lamp itself cannot rotate or the rotation position is insufficient to meet the requirements, If the inserted monitor cannot be installed at multiple angles, it will result in inverted and side images on the monitoring screen. Only when the external module can be installed in multiple positions, it is possible to debug the position, so as to meet the corresponding requirements.
- the equal and unequal properties of the card slot 407 and the card block 202 determine the embedding method of the sensor 4.
- the sensor 4 can be mounted on the sensor mounting base 2 at different angle positions.
- the sensor 4 has only one absolute angular position to mount the sensor 4 to the sensor mounting base 2.
- the direction of the rotation mounting or dismounting of the sensor 4 and the sensor mounting base 2 can be rotated counterclockwise or clockwise.
- an integrated sensor mounting base starting positioning mark 204 and an integrated sensor mounting may be provided on a side of the sensor mounting base 2 where the contact PCB module 105 is provided.
- Seat starting location identification 205 Therefore, it is convenient to set humanized reference marks on the sensors, LED modules, and contact PCB modules, which greatly facilitates the identification of the location.
- the process of assembling the waterproof cover 111 or the waterproof cover 111b is just the opposite of the disassembly process. The installation can be completed by tightening it clockwise or counterclockwise.
- the waterproof cover 111 or the waterproof cover 111b has the same structural connection mode and sealing characteristics as the sensor bottom case 401.
- the buckles of the sensor mounting base 2 are distributed in different sizes.
- the sensor 4 When the sensor 4 is installed, as long as it does not rotate to a specific position, it is in a repulsive state to prevent the sensor 4 Insertion, only when the size and position angle of the block 202b and an angular slot 406 correspond one-to-one, that is, when the block 202 is trapped in the card slot 406, the position is correct, so that the interference problem can be removed. Therefore, in this embodiment, the sensor 4 can be installed at only one installation angle.
- This solution can effectively locate and prevent erroneous access, and is particularly suitable for sensor devices that conduct electricity and signal transmission at the same time, such as microwave sensors. Not only does it need to take power from the luminaire, it also needs to get the signal and return the signal. This solution can well solve the problem of the difference between location and polarity, and can effectively prevent damage caused by incorrect installation.
- the sensor 4 when the sensor 4 is mounted on the sensor base 2 at different angles, super compatibility and modification characteristics can be achieved.
- the sensor 4 has only one absolute angular position that can be installed on the sensor base 2, the sensor 4 has an error-prevention installation feature, which can absolutely prevent the sensor 4 from being incorrectly installed.
- FIGS. 11 to 13 When the sensor 4 is mounted on the sensor mounting base 2, a contact is formed between the telescopic conductive pin 403 of the sensor 4 and the contact PCB module 105.
- the sensor 4 is shown in the figure when it is rotated and installed. Slide in the direction of the arrow as shown.
- a spring (not shown) is provided in the telescopic conductive pin 403, so that the telescopic conductive pin 403 has a certain elasticity, and the elastic telescopic conductive pin 403 can always maintain close contact with the contact surface of the contact PCB module 105
- the telescopic conductive pin 403 can also effectively offset the problem of poor contact caused by vibration.
- the surface of the telescopic conductive pin 403 can also be gold-plated.
- the contact surface of the contact PCB module 105 is tin-plated.
- the first contact surface 107, the second contact surface 107 b, and the third contact surface 107 c on the contact PCB module 105 are relative to the first telescopic conductive pin 403 and the second The telescopic conductive needle 403b and the third telescopic conductive needle 403c are disposed correspondingly.
- the position of the second telescopic conductive pin 403 b does not change, and the first telescopic conductive pin 403 and the second telescopic conductive pin 403 c respectively perform an arc movement in the R direction.
- the relative position between the block 202 b and the angular slot 406 also changes along the circumference. Based on such a setting, the convenience of cooperation between the sensor 4 and the sensor mounting base 2 can be further improved, that is, based on such a structural setting, the sensor 4 can be conveniently placed at multiple angles After that, they can be screwed on.
- first contact surface 107, the second contact surface 107b, and the third contact surface 107c and the first telescopic conductive pin 403, the second telescopic conductive pin 403b, and the third telescopic conductive pin 403c are further limited:
- the second contact surface 107 b has a circular contact surface
- the first contact surface 107 and the third contact surface 107 c have a waist-shaped contact surface
- the sensor is inserted into the sensor 4.
- the first contact surface 107 is always in contact with the first telescopic conductive pin 403
- the second contact surface 107b is always in contact with the second telescopic conductive pin 403b
- the third contact surface 107c is always in contact with the third telescopic conductive pin 403c contact.
- the radian of the contact surfaces of the first contact surface 107 and the third contact surface 107c corresponds to the radian of the angular slot 406, thereby ensuring that the inductor 4 can be electrically connected regardless of whether it is screwed in place.
- the first telescopic conductive needle (positive probe) 403, the second telescopic conductive needle (negative probe) 403b, and the third telescopic conductive needle (signal probe) 403c are all elastic probes.
- the first telescopic conductive pin (positive probe) 403, the second telescopic conductive pin (negative probe) 403b, and the third telescopic conductive pin (signal probe) 403c receive With compression, an elastic restoring force is generated, so that it can be in close contact with the respective contact surface, and the electrical connection formed is more reliable.
- the card block 202 and the card slot 407 form elastic pressure. When the card block 202 is inserted into the card slot 407, it must first pass through a vertical area. The card block 202 is actually in the card slot when rotating. The movement in 407 effectively prevents the sensor 4 from rotating relative to the sensor base 2.
- the first contact surface 107 as a positive contact
- the second contact surface 107b as a negative contact
- the third contact surface 107c as a signal contact
- the fourth The contact surface 107d is defined as the positive signal contact surface of the additional signal
- the fifth contact ground 107e is defined as the negative signal contact surface of the additional signal.
- the signal obtained by the conductive pin and the return signal also correspond to the functions of the contact surface, regardless of whether it is the contact surface or the conductive pin.
- the definitions of the pins are not fixed. They can change the position and order to meet different needs. Here is only a reference for the meaning of an arrangement.
- the above mentioned additional signal positive probe 403d / additional signal negative probe 403e Etc. is not a specific representation, it can be understood as one of the embodiments of the present invention, and its specific functions can also be arbitrarily defined, which is not limited here.
- the contact PCB module as shown in FIG. 13 has five contact surfaces corresponding to the first contact surface 107, the second contact surface 107b, the third contact surface 107c, and the fourth contact surface, respectively. 107d and the fifth contact surface 107e.
- two spare signal transmission contact surfaces are added, which can enable the external sensor 4 to achieve more functions. Assembling a variable number of telescopic conductive pins, the number of said contact surfaces and telescopic conductive pins is at least three, and there is no maximum number according to demand;
- the sensor 4 is provided.
- the waterproof cover 111 (as shown in FIG. 15) or the waterproof cover can be used.
- 111b (as shown in Figure 16) blocks the sensor mount to achieve protection. To install the sensor, you need to remove the waterproof cover 111 or 111b first. The waterproof cover 111 or 111b can be pulled out by turning counterclockwise or clockwise until it cannot be turned.
- An adjustment groove is provided on an end surface of the waterproof cover 111, and the adjustment groove may be a groove such as a zigzag, a cross, a flower, an inner hexagon, an inner four corners, etc.
- the waterproof plug cover 111 is connected to the sensor mounting base 2.
- the waterproof cover 111b shown in FIG. 16 protrudes from the sensor mounting base 2.
- the waterproof cover 111b is designed to protrude from the sensor mounting base 2.
- the waterproof cover 111b can be removed by hand
- the sensor mounting base 2 is disassembled to obtain a better gripping feeling, which is convenient for disassembly and installation.
- the docking groove (not labeled) can be connected to the waterproof cover 111.
- the connection structure of the waterproof cover 111 is the same as that of the sensor.
- the connection with the lighting lamp 1 is interchangeable. In the initial state, the lighting lamp 1 is installed with a waterproof plug cover 111, so that the function of protecting the docking groove can be realized. When it is necessary to implement the sensing function, a waterproof plug cover 111 needs to be used. Take off.
- the senor 4 further includes a sensor bottom case waterproof ring 410,
- the bottom case waterproof ring 410 is used to seal the sensor base 4.
- the waterproof ring 410 just forms a squeeze with the arc surface 203 of the base, and can also be assembled at the 409 position as required.
- Another spare waterproof ring 410 achieves double sealing.
- the reference mark can be used for quick positioning and installation, or the sensor 4 can be rotated 360 ° in the sensor mounting base 2 until the sensor 4 is rotated to a position where there is a noticeable drop, and then press it slightly hard. Press and rotate it clockwise until it can no longer rotate.
- the waterproof ring 410 of the sensor bottom case 401 and the sensor base 2 are waterproof.
- the circle squeezes the arc surface 203 to form a strong squeeze, so that the lighting lamp 1 with a sensor forms a closed cavity for protection purposes.
- the removal of the sensor 4 is rotated clockwise like the removal of the waterproof cover 111. Or turn it counterclockwise until you can no longer turn it out.
- the role of the sensor bottom case 401 and the sensor bottom case 501 are the same, but they have differences.
- the sensor bottom case 401 can achieve multiple angles as described above. Installation, and the sensor bottom case 501 has only one fixed position, and the number of through-holes of their telescopic conductive pins 403 is different.
- the sensor bottom case 401 is used for plugging and docking with the sensor base 2, and the sensor 4 All the components of the composition are finally carried by the sensor bottom case 401.
- the senor 4 includes at least a sensor main board 413 and a sensor module 419.
- the sensor module 419 is triggered to transmit a control signal to the sensor main board 413. It is transmitted to the telescopic conductive pin 403 via the sensor main board 413, and the telescopic conductive pin 403 transmits the control signal to the lighting lamp 1 via the contact PCB module 105 in the sensor mounting base 2 to realize the function of the lighting lamp 1. control.
- the induction module 419 includes two modular circuits superimposed, and the modular circuit may specifically be a first circuit board 511 and a second circuit board 512, and the first circuit board 511 may transmit two types of circuits at the same time.
- the first circuit board 511 can convert the detection signal into a voltage signal, and the second circuit board 512 sends a control signal to the lamp body 501 after receiving the voltage signal.
- the control signal is generated based on the induction by the induction module 419.
- the telescopic conductive pin 403 is welded to the sensor main board 413 by welding, and the elastic head of the telescopic conductive pin 403 is welded. The part is turned on by contact with the contact surface of the contact PBC module 105, and is transmitted to the sensor main board 413.
- the sensor main board 413 is provided with a telescopic conductive pin pad hole 414 for the telescopic conductive pin 403 to be inserted; the sensor main board 413 further includes a first module pad hole 415 And a second module pad hole 416, the first module pad hole 415 and the second module pad hole 416 are correspondingly inserted and fixed by the induction module 419 and the Bluetooth module 419d.
- a Bluetooth module 419d is welded on the sensor main board 413, and an induction module 419 is welded on the sensor main board 413 in FIG. 19.
- Both modules are inserted into the sensor main board 413 by arraying. And tinned and soldered firmly, they are respectively inserted into the module welding holes of the induction module 419 and the second module pad hole 416, because the functions of the induction module 419 and the second module pad hole 416 are both It is used for the expansion of functional modules, so the two modules can also change their order.
- the Bluetooth module 419d and the induction module 419 can also exist at the same time, and they can be stacked without interfering with each other, or there can be only one module. .
- the conversion circuit and the temperature control module 417 are shown as the conversion circuit and the temperature control module, which can have both the functions of the conversion circuit and the temperature control circuit, of course, it can also be other circuits.
- the present invention includes a temperature control module on the lighting lamp 1 to detect the temperature of the lighting lamp 1 in real time.
- the temperature control module will pass 0-10V The signal reduces the output power of the lamp, and controls the temperature of the lamp 1 within the limit.
- the output power of the lamp is inversely proportional to the ambient temperature, and the temperature of the lighting lamp 1 is proportional to the ambient temperature change.
- a temperature control module is added to the lamp board of the lighting lamp 1.
- the protection mechanism of the temperature control module is not a traditional switch protection mode, but a constant temperature control is realized by continuous temperature identification and judgment via a compensation circuit, because it does not directly use the switch operation, so it does not As a result, the lighting lamp 1 has a flickering feeling.
- the telescopic conductive pin 403 contacts the contact PCB module 105 and is conducted to the circuit of the sensor main board 413.
- the sensor main board 413 turns the lighting lamp on
- the electronic signal of 1 is transmitted to the conversion circuit and the temperature control module 417.
- the conversion circuit and the temperature control module 417 conduct the electronic signal to the first module pad hole 415 or the second module pad hole 416.
- a module pad hole 415 obtains signals and power.
- the induction module 419 is ready to work. After the detector of the sensor module 419 is triggered, the induction module 419 outputs an electronic signal and returns to the lighting lamp through the original path to achieve the control purpose. .
- the sensor bottom case 401 is further provided with a fixing post 411, which is used to install and fix the sensor main board 413, and the sensor bottom case 401 is also provided with a sensor bottom case probe through hole. 402, in addition to the probe bottom hole 402 of the inductor, the telescopic conductive pin 403 can be passed through, and the telescopic conductive pin 403 can be protected from deformation and bumps.
- the sensor bottom case 401 is also provided with There are screw holes (not labeled) fixed with the sensor face shell 422 and a waterproof ring card slot 412.
- the sensor waterproof sealing ring 420 is installed in the waterproof ring retaining groove 412 and is mainly used for sealing the connection with the sensor face shell 422.
- the telescopic conductive pin 403 is welded to the sensor main board 413, and the other end is provided with an elastic round-shaped needle for contacting and conducting the electronic connection with the contact PCB module 105.
- the sensor main board 413 is an electronic hub of the sensor 4.
- the telescopic conductive pin 403 and the sensor module 419 are both mounted on the sensor main board 413.
- the sensor main board 413 can also be provided with a conversion circuit, a temperature control module, and the like.
- the specific type of the induction module 419 can be changed according to functional requirements. Each different type of module has its own unique function and is also a key component that determines the purpose of the sensor 4.
- an inductor 4 is provided.
- the difference between the inductor 4 and the inductor 4 disclosed in FIG. 18 and FIG. 19 is that the telescopic conductive
- the number of needles 403 is five.
- the sensor 4 further includes an interference protection ring 421, which is not a required component, and is specifically installed according to functional requirements.
- the material may be opaque plastic or Metal is used to shield external signal interference and lamp light interference. For example, when manufacturing a light sensor, this component must be used to shield the light effect caused by the self-luminousness of the lamp.
- the interference protection ring 421 is nested inside the sensor face shell 522.
- the sensor case 522 can be used to cover the sensor module 419.
- a sixth embodiment of the present invention further discloses an inductor 4.
- the inductor case 622 in the inductor 4 may have different appearance shapes.
- a structure can also be provided in the middle position of the sensor face shell 622, which can be equipped with an optical lens 623. Because sometimes a sensor face shell 622 is required to have different material requirements, but the two materials are combined into one component. The process is not easy, but it is much easier to achieve by means of an assembled structure.
- a plurality of through holes 404 are provided on the sensor bottom case 401, and the through holes 404 can be used as mechanical screw fixing holes or ventilation holes. Further, a plurality of fool-proof convex strips 405 are further provided on the inside of the bottom case 401 of the sensor, so as to prevent the sensor 4 from being placed in the sensor base 2 by mistake.
- the sensor 4 further includes a face case fixing screw 426, and the face case fixing screw 426 includes a plurality of screws evenly distributed on the top or bottom of the circumference of the inductor 4 circle.
- the surface case fixing screws 426 can be used to fasten the inductor surface case 622 and the inductor bottom case 401.
- the sensor 4 further includes an optical lens waterproof ring 624, which is used for sealing between the optical lens 623 and the sensor cover 622.
- the shape of the optical lens 623 may be a hemispherical shape or a flat plate shape. It is assumed that the sensor 4 is equipped with a camera module for monitoring, and the sensor case 622 is made of a fully transparent material. It meets the requirements, but at the same time, other areas also become transparent, which affects the appearance. If opaque materials are used, it will block the camera's acquisition of external images. At this time, the processing of local materials becomes very important. The effect is to change the local optical properties of the sensor face shell 622.
- the senor 4 further includes an optical lens pressing ring 625, and the role of the optical lens pressing ring 625 is to press the optical lens 623, and at the bottom of the optical lens pressing ring 625 It has a plurality of columnar structures (not numbered), which are directly inserted into corresponding holes of the sensor surface case 422, and fixed inside the sensor surface case 622 using an optical lens pressing ring fixing screw 628, of course
- the snap-in structure can be used, so it can be fixed without screws.
- a sensor 4 is provided.
- the sensor 4 can be connected to the sensor base 2 in a pluggable manner.
- the electronic continuity depends on the contact between the contact PCB module 105 and the telescopic conductive pin 403 to form an electrical connection. In this way, the electrical continuity of the inductor 4 is completed at the same time, and no additional wiring is required.
- the sensor 4 is provided with a sensor main board 413.
- the sensor main board 413 has a function of circuit conversion and module expansion.
- the sensor main board 413 is welded with a sensor module 419.
- the sensor main board 413 is the sensor 4 and the sensor. Communication module of the transmitter module 419.
- the telescopic conductive pin 403 is connected to the bottom of the sensor main board 413 by high-temperature welding.
- the sensor main board 413 described herein and below may also be considered as a sensor sub-board.
- the above welding position plays a role of fixing and extending the conductive pin 403, and makes the conductive pin 403 and the circuit of the inductor mounting base 2 conductive.
- the telescopic conductive needle 403 is made of metal copper, which has good conductivity, excellent wear resistance, and is not easy to wear.
- the second module pad hole 416 of the Bluetooth module 419d and the sensor can also be provided on the sensor main board 413.
- the mounting base 2 may further include a Bluetooth module 419d, and a solder pin 500 of the Bluetooth module 419d is inserted into the second module pad hole 416.
- the Bluetooth module 419d may select Hisense HD06VCRH-1, or other models.
- the sensor main board 413 may further be provided with a first module pad hole 415.
- the sensor mounting base 2 may further include a sensor module 419.
- the sensor module 419 has Solder pins are inserted into the first module pad holes 415.
- Bluetooth module 419d and the induction module 419 can be selected for installation or installed on the sensor motherboard 413 at the same time.
- the Bluetooth module 419d and the induction module 419 in the embodiment of the present invention are merely examples, and it can be easily recognized that other modules, such as a WIFI module, a music player module, or a 6PS module, can be connected to the sensor motherboard 413. .
- the Bluetooth module 419d, the induction module 419, etc. are installed on the sensor main board 413, the Bluetooth module 419d and the induction module 419 are projected upward.
- the upper case 110 surrounds a cavity. The cavity can accommodate these modules.
- FIG. 29 and FIG. 30 it is composed of a lighting lamp 1, a sensor mounting base 2, and a sensor 4.
- the sensor mounting base 2 is integrally injection-molded into the lighting.
- the illustrated temperature-sensing and temperature-controlling module 419j can be optionally integrated into the lighting lamp 1 or the sensor 4, and the illustrated sensor module 419 has several functional categories.
- the sensor 4 is connected to the sensor module 419 through the sensor main board 413.
- the sensor module 419 may further include a function module for sensing, such as a microwave sensor module 419a, an infrared sensor module 419b, a light sensor module 419c, a smoke sensor module 419g, a fire sensor module 419h, and a camera.
- the monitoring module 419i and the temperature sensing temperature control module 419j, the sensor module 419 further includes a functional module for communication, such as a Bluetooth module 419d, a WIFI module 419e, and an Internet of Things module 419f.
- a functional module for communication such as a Bluetooth module 419d, a WIFI module 419e, and an Internet of Things module 419f.
- Each of the above functional modules has its own unique functions and uses.
- other modules can be infinitely expanded, such as an air detection module, a 6PS module, and an environmental detection module.
- the function expansion of the light only needs to replace the sensors with different modules to achieve the corresponding functions.
- the temperature-sensing and temperature-controlling module 419j can be integrated on the lighting lamp 1, or can be integrated on the sensor main board 413, or can be soldered to the module interface of the sensor main board 413 as an independent module.
- + 12V is connected to the 12V auxiliary source anode driven by the LED
- 6ND is connected to the 12V auxiliary source anode driven by the LED
- DIM + is connected to the 0-10V dimming positive pole driven by the LED.
- AR1 is a comparison amplifier and NTC1 is an NTC thermistor.
- One end of the resistor R1 is connected to the 12V input positive electrode, the other end of the resistor R1 and the zener diode D1, the capacitors C1 and C2, the resistors R2 and R3, and the positive electrode of the comparison amplifier AR1 power supply.
- One end of the capacitors C1 and C2 is connected to the resistor R1, and the other end of the capacitors C1 and C2 is connected to the input 12V input negative electrode.
- One end of the resistor R2 is connected to the resistor R1, and the other end of the resistor R2 is connected to the comparator AR1 positive signal input IN + and NTC1.
- resistor R3 One end of the resistor R3 is connected to R1, and the other end of the resistor R3 is connected to the negative signal input IN- of the comparator AR1, the resistor R4, and the resistor R5.
- One end of NTC1 is connected to resistor R2 and comparator AR1 positive signal input IN +, and the other end is connected to 12V input negative electrode.
- One end of the resistor R4 is connected to the resistor R3, the resistor R5 and the negative signal input IN- of the comparator AR1, and the other end of the resistor R4 is connected to the 12V input negative electrode.
- One end of resistor R5 is connected to resistor R4, resistor R3 and comparator AR1 negative signal input IN-, the other end is connected to comparator output OUT + and diode D2.
- One end is connected to 0-10V dimming positive DIM +, and the other end is connected to resistor R5 and comparator AR1.
- Output OUT + One end is connected to 0-10V dimming positive DIM
- the LED driver's 0-10V dimming interface outputs 100% when the input voltage is 10V, 90% when 9V, and 0% when 0V, that is, the input dimming voltage is linearly proportional to the output power.
- Vin + is equal to Vin-
- the voltage of DIM + is 12V * (R5 * R4 + NTC1 * R4-NTC1) / (NTC1 * R4 + R2 * R4).
- the resistance of the NTC thermistor NTC1 changes with temperature. The higher the temperature, the smaller the resistance value. According to the second point, when NTC1 is greater than the resistance R4, DIM + full voltage output, the power output of the lamp, when NTC1 is less than the resistance R4. When DIM + decreases, the output power of the lamp decreases, and the temperature of the lamp decreases until it reaches the equilibrium point. When DIM + is equal to 0 when the NTC thermistor NTC1 is less than ((R4 * R5) / (R4 + R5)), the lamp is turned off.
- An eighth embodiment of the present invention provides a lighting lamp with a sensor, which is different from the lighting lamp with a sensor described in the above embodiment in that:
- the illuminating lamp further includes a sensor base 702 which is detachably connected to the illuminating lamp 1.
- the sensor 4 includes a sensor case 710 and a sensor module 419 which is built in and inside the sensor case 710.
- the sensor further includes a sensor main board 413 provided on a side of the sensor base 702 facing the sensor 4.
- the sensor module 419 is provided with a telescopic conductive pin 403 and the sensor main board 413 for electrical connection.
- the sensor surface case 710 corresponds to a sensor housing
- the sensor module 419 corresponds to a sensor module
- the telescopic conductive pin 403 corresponds to a conductive probe
- the sensor main board 413 corresponds to Transfer structure.
- the sensor module 419 includes, but is not limited to, a pressure sensor, an infrared sensor, an ultrasonic sensor, a temperature sensor and a light sensor, etc., and can be replaced according to the suitability of the product.
- the sensor base 702 needs to choose some convenient connection methods. Therefore, when connecting the sensor base 702 to external devices, try to use: thread connection, snap connection, bolt connection, detachable hinge connection, magnetic A relatively simple connection method such as suction, optionally, the sensor base 702 is connected to external equipment with a screw.
- the shape of the sensor surface case 710 may be a cylinder, a cube, or a rectangular parallelepiped.
- a matching fixing structure is provided between the sensor surface case 710 and the sensor base 702, and the sensor module 419 is electrically connected to an internal circuit of an external device through the sensor base 702.
- the sensor base 702 and the sensor face shell 710 are detachably connected. It can be understood that the same sensor module 419 can be converted into different signals. It can also be understood that the same product can be configured with different sensor modules 419 according to needs, and can also be implemented without self-researching the integrated device, which greatly simplifies the overall design structure of the lighting lamp 1 and reduces manufacturing. Cost, so as to achieve a wide range of applications and strong versatility.
- the inner wall of the opening of the sensor case 710 is further provided with a support block 709a and a limit block 709b having different structures.
- the support block 709a and the limit block 709b are both two.
- the supporting block 709a and the two limiting blocks 709b are arranged in a circular space.
- the limiting block 709b is in the shape of a "C”.
- the supporting block 709a is in the shape of a "mountain”.
- the limiting block 709b and the supporting block 709a are provided with a flat portion.
- the limiting block 709b can sufficiently limit the degree of freedom of the sensor module 419, and The size of the two limiting blocks 709b and the size of the opening are different, and they can be used as a fool-proof structure during the installation of the sensor module 419. Wherein, the 709a supporting block and the 709b limiting block are combined to form a card slot.
- a rectangular convex block 711 is provided on the inner wall of the opening of the sensor case 710, and a slot corresponding to the position and size of the block 711 is provided on the sensor base 702. 705, the number of card blocks 711 in this embodiment is five, of which four are arranged in a circular matrix on four sides, and one of them is arranged separately.
- the corresponding card slots 705 are also arranged according to this method, and the card slots 705 are designed as "L After the card block 711 is inserted into the card slot 705, it can be locked by rotation.
- a separate card block 711 is used as the second fool-proof structure when installing the sensor cover 710 and the sensor base 702.
- the sensor surface shell 710 is disassembled from the sensor base 702, and the sensor surface shell 710 can be pulled out after reverse rotation. This design is convenient, reliable and highly reliable.
- card block 711 is equivalent to the first connection block
- card slot 705 is equivalent to the second limit slot
- the sensor base 702 is further provided with four connecting posts 713 and two limiting posts 712, and the corresponding position and size of the limiting posts 712 are evenly arranged on the sensor main board 105. Matching hole position (not labeled).
- the sensor base 702 and the sensor face shell 710 are connected to form a cavity, and in the overall cavity
- a sensor waterproof sealing ring 707 is provided at the connection to ensure the tightness of the cavity, thereby ensuring that the sensor module 419 is not affected by the outside world.
- the sensor base sealing ring 701 is also used at the connection between the sensor base 702 and external equipment. To ensure the tightness of the connection with the outside world; as a whole, the signal is transmitted to the sensor module 419 through the telescopic conductive pin 403, and the sensor module 419 is firmly supported by the limit block 709b and the support block 709a. It adopts the form of layer-by-layer fastening and loop-to-loop connection, which can fully realize the reliability and stability of the body when in use.
- the setting of the sensor base 702 is intended to be a stand-alone mobile installation that provides more portability for a component, and it can also be integrated into a fixed place, that is, integrated into an existing lens. Base structure, so there is no need to fix the base.
- the detachable sensor provided by the present invention has better installation convenience. It can be opened with 1/2 hole in the place where the product is intended to be installed, without the need for integrated investment, each of which has advantages.
- the present invention provides a central sensor that can be easily disassembled, which can be used to purchase different types of central sensors by the customer according to the actual needs of the user, so as to realize the DIY configuration of the product. Therefore, various modules can be set in the structural shell to realize the functions of microwave, Bluetooth, infrared, light sensing, sound control, monitoring security, temperature control, and the like.
- the corresponding control circuit can be located in the center inductor or the lamp holder.
- a sensor 8 is provided.
- the sensor 8 includes a sensor base 803 and a sensor case 809.
- the sensor base 803 is above the sensor base 803.
- a block 804 is provided, and the sensor cover 809 is provided with a sensor cover 810 corresponding to the position and size of the sensor base clip 804, so that the sensor base 801 is set on the sensor cover Above 809, the sensor base 801 and the sensor face shell 809 form a cavity, and a sensor main board 807 is arranged in the cavity.
- the sensor 8 includes a contact PCB module 805, and the contact PCB module 805 is fixed on the sensor base 803 by a contact PCB module fixing screw 806.
- the senor 8 includes a sensor waterproof ring 808, which is disposed between the sensor case 809 and the sensor base 803.
- the sensor base 803 is fixed on a lighting lamp (not shown) through the sensor fixing nut 801.
- a sensor waterproof gasket 802 is further provided between the sensor fixing nut 801 and a lighting lamp (not shown).
- the sensor surface case 809 is equivalent to the sensor case
- the sensor main board 807 is equivalent to the transfer structure
- the sensor base block 804 is equivalent to the first connection block
- the sensor The surface shell card slot 810 is equivalent to a second limit slot.
- the contact PCB module 805 is provided with a positive contact, a negative contact, a signal contact, and the like.
- the senor 8 shown in FIG. 39 is the smallest type of plug-in sensor in the present invention, and their implementation manners are similar to the solutions described above. At the same time, they also have corresponding program improvements, which will not be repeated here.
- the sensor 8 may be disposed on a light-emitting surface of the industrial and mining lamp 9.
- the sensor 8 can be integrally formed with the industrial and mining lamp 9 or can be detachably connected.
- the sensor 8 provided in the eleventh embodiment of the present invention may be provided on the lighting lamp 10, wherein the sensor 8 is provided on the lighting lamp 10 on the edge.
- the sensor 8 can be connected to the lighting lamp 10 through a plug-in structure, which is mainly used for upgrading and upgrading existing products, and can also act on brand-new products.
- the installation of the sensor 8 only needs to open a 1/2 hole in the lighting lamp 10, and the 1/2 hole hole position is a reserved hole specification commonly used in existing lamps.
- a sensor module (not shown) is provided in the sensor 8, and the sensor module generates a corresponding electrical signal after detecting the trigger signal to control the lighting lamp 10 to be turned on or off or other control modes.
- the senor provided by the present invention can be widely used in a variety of lighting lamps, and has a wide applicability. Its structure is similar to the lighting lamp of the first embodiment of the present invention, but the type and specific sensing of the lighting lamp The mounting position of the device has changed.
- sensors provided by the present invention can not only be applied to strip lights, circular lights, and special-shaped lights, but their functions can also depart from the scope of the embodiments of the present invention and be used in other fields.
- the illumination lamp with a sensor provided by the present invention and the sensor thereof have the following beneficial effects:
- the sensor controls the lighting of the lighting lamp by detecting the environmental signal, so that the lighting lamp can be controlled automatically and intelligently according to the external environment.
- the environmental signal can be a variety of signals such as environmental brightness, sound, nearby people or objects, environmental quality, smoke, etc.
- the adjustment of the light emission of the lighting lamp 1 can include light and darkness, brightness, luminous color, sound signal, and heat radiation signal (such as Infrared signal) and other adjustments can be set according to the use environment and use requirements.
- the type of sensor is selected according to the type of environmental signal detected.
- the senor may be configured to sense one type of environmental signal, or may be configured to sense multiple types of environmental signals.
- the light emission of the illumination lamp with the sensor may also be set to a single adjustment on or off, or may be set to A variety of lighting parameters are adjusted according to different environmental signals.
- the electrical connection mode of the sensor to the sensor mounting base or the lighting lamp is not limited to the connection mode in which the telescopic conductive pin is in contact with the contact. It may also be a shrapnel connection, a plug-in connection, a pinhole link, Magnetic connection, wireless coupling connection, etc.
- the setting of the sensor base is intended to exist independently to provide a more portable mobile installation for a component, and the base can also be integrated in a fixed use place.
- the lens has an integrated base structure, so no additional base is required.
- the sensor surface shell has the function of shielding and protecting the internal circuit of the sensor.
- the sensor surface shell can be arbitrarily shaped to meet the expansion and installation of more modules, improve the appearance effect, and change the grip feeling of the installation.
- the optical lens may be in the shape of a flat plate, a hemispherical shape, a special shape, and the like, and is fixed to the sensor case by a pressure ring or an ultrasonic process, and is used to change local optical characteristics of the sensor case. , Focusing, astigmatism, receiving light, glowing, etc.
- the present invention provides a central sensor that can be easily disassembled, which can be used to purchase different types of sensors by the customer according to the actual needs of the user, so as to realize the DIY configuration of the product. Therefore, various modules can be set in the structural shell to realize the functions of microwave, Bluetooth, infrared, light sensing, sound control, monitoring security, temperature control, and the like.
- the corresponding control circuit can be provided in the sensor or in the lighting lamp.
- This embodiment provides a lighting lamp with a sensor, which not only eliminates the tedious installation steps and complicated wire connection methods of the traditional sensor, but the solution is simple to install, and realizes fast installation and disassembly of blind insertion, high efficiency, and safety. Reliable, while fully realizing the sensing function, it greatly saves costs, is easy to install and maintain, overall beautiful, and has a wide range of market application prospects.
- the invention provides a lighting lamp with a sensor.
- the design of the sensing part without an external cable can be realized, which is not only beautiful, lightweight, and superior in function; the pluggable installation structure of the sensor, Convenient and fast, blind screwing can be realized, greatly reducing the installation cost and product cost.
- the sensor base greatly improves the maximum use of product parts, and is also conducive to the sustainable development of the product and achieves very beneficial results.
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Abstract
Description
Claims (15)
- 一种具有感应器的照明灯,其特征在于:其包括照明灯、感应器安装座及感应器,所述感应器安装座设于照明灯之上,所述感应器与所述感应器安装座可拆卸式安装连接,所述感应器检测触发信号后产生对应电信号,以控制所述照明灯执行预设控制操作。
- 如权利要求1所述的具有感应器的照明灯,其特征在于:所述感应器上设有伸缩导电针,所述感应器安装座上设有触点PCB模块,所述感应器与所述感应器安装座采用插拔式连接,所述伸缩导电针与所述触点PCB模块压紧接触导通以实现电性连接。
- 如权利要求2所述的具有感应器的照明灯,其特征在于:所述感应器包括至少一模块化电路板,所述模块化电路板包括感应器模块,所述感应模块被触发后将控制信号传输给所述感应器主板,经由感应器主板再传输至伸缩导电针,伸缩导电针经由所述感应器安装座中的触点PCB模块将控制信号传输给照明灯以实现功能控制。
- 如权利要求3所述的具有感应器的照明灯,其特征在于:所述感应模块包括微波感应模块、红外感应模块、光感感应模块、烟雾感应模块、火感模块、摄像头监控模块、温感温控模块、蓝牙控制模块、WIFI控制模块或物联网控制模块中任一种或几种的组合。
- 如权利要求1所述的具有感应器的照明灯,其特征在于:所述具有中置感应器的照明灯包括温控模块,所述温控模块集成于照明灯或设置于感应器中;所述温控模块包括比较器芯片与热敏电阻,所述热敏电阻会随温度变化而改变自身阻值,所述比较器通过判断热敏电阻的阻值以实现连续的温度识别,当比较器判断识别值偏离设定值时发出控制信号,以调整照明灯的功率输出。
- 如权利要求1所述的具有感应器的照明灯,其特征在于:所述伸缩导电针至少有三根,单根所述伸缩导电针包括供电正极导电针,供电负极导电针,调光信号正极导电针、辅助信号正极导电针,辅助信号负极导电针中任一种;所述触点PCB模块上设有至少三个导电接触面,所述伸缩导电针与所述导电接触面匹配设置。
- 如权利要求6所述的具有感应器的照明灯,其特征在于:单个所述导电接触面为圆形或圆弧形;多个所述导电接触面中其中一个导电接触面位于中心位置且为圆形,另外的导电接触面位于以中心位置为圆心的圆周方向上且为圆弧形。
- 如权利要求1所述的具有感应器的照明灯,其特征在于:所述伸缩导电针有三根,分别为第一伸缩导电针、第二伸缩导电针和第三伸缩导电针,所述触点PCB模块包括第一导电接触面、第二导电接触面和第三导电接触面,所述第一伸缩导电针、第二伸缩导电针和第三伸缩导电针平行并排设置,所述第一伸缩导电针与所述第一导电接触面压紧接触,所述第二伸缩导电针与所述第二导电接触面压紧接触,所述第三伸缩导电针与所述第三导电接触面压紧接触;所述第二导电接触面为圆形,所述第一导电接触面、第三导电接触面均为以所述第二导电接触面为圆心的圆弧形。
- 如权利要求1所述的具有感应器的照明灯,其特 征在于:所述感应器主板上设有2组或2组以上通孔,所述通孔用于焊接感应模块,所述感应器主板可同时焊接安装至少两个感应模块。
- 如权利要求1所述的具有感应器的照明灯,其特征在于:所述感应器包括感应器底壳,所述感应器底壳侧壁上设有卡槽,所述感应安装座的侧壁上设有卡块,所述对接卡槽与所述对接卡块通过旋转插拔方式连接;所述卡槽与卡块的数量至少有两个或两个以上,所述卡槽与卡块的排列角度及大小相同或不相同。
- 如权利要求10所述的具有感应器的照明灯,其特征在于:所述感应器的底壳内侧壁上设有防呆凸条,所述触点PCB模块的外侧壁上设有防呆凹槽,所述防呆凸条在所述触点PCB模块的防呆凹槽内转动,以确定触点PCB模块的安装位置。
- 如权利要求1所述的具有感应器的照明灯,其特征在于:所述感应器安装座上还包括可拆卸的防水堵盖,所述防水堵盖的安装结构与感应器的安装结构相同,所述防水堵盖用于不安装感应器时封堵感应器底座以达到防护目的。
- 如权利要求1所述的具有感应器的照明灯,其特征在于:所述感应器安装底座可安装于所述照明灯的中间位置或安装于所述照明灯的四周;和/或所述感应器还包括与所述感应器底壳相匹配的感应器面壳,所述感应器面壳与所述感应器底壳之间形成容纳空间;和/或所述感应器还包括光学镜片,所述光学镜片设于所述容纳空间之内;所述光学镜片可以是平板形、半球形、异形中任一种。
- 如权利要求1所述的具有感应器的照明灯,其特征在于:所述感应器安装座固定连接于所述照明灯之上;或所述感应器安装座可拆卸连接于所述照明灯之上。
- 一种感应器,其特征在于:所述感应器可拆卸连接于一照明灯主体表面,所述感应器内设有感应模块,感应模块检测触发信号后产生对应电信号,以控制所述灯具主体的开启或关闭。
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US17/203,716 US11533796B2 (en) | 2018-09-17 | 2021-03-16 | Sensor and illumination lamp with the same |
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CN201811563944.4A CN109506225A (zh) | 2018-12-20 | 2018-12-20 | 一种照明灯用中置插拔式感应装置 |
CN201811563280.1A CN109578955A (zh) | 2018-12-20 | 2018-12-20 | 一种中置感应器的照明灯 |
CN201822146605.8U CN209213788U (zh) | 2018-12-20 | 2018-12-20 | 一种中置感应器的照明灯 |
CN201822164463.8U CN209213789U (zh) | 2018-12-20 | 2018-12-20 | 一种照明灯用中置插拔式感应装置 |
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Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
WO2022069298A1 (en) * | 2020-09-29 | 2022-04-07 | Signify Holding B.V. | Luminaires with accessories, such as sensors |
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USD988581S1 (en) * | 2020-12-02 | 2023-06-06 | Ideal Industries Lighting Llc | Lighting fixture |
CN114051301A (zh) * | 2021-11-19 | 2022-02-15 | 中科智城(广州)信息科技有限公司 | 一种智慧路灯统一监管系统 |
CN114235038B (zh) * | 2021-12-06 | 2024-06-25 | 国网河北省电力有限公司营销服务中心 | 一种物联网无线实时监测传感器 |
Citations (8)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN201416806Y (zh) * | 2009-03-17 | 2010-03-03 | 楼萍 | 新型结构感应灯具 |
CN103604097A (zh) * | 2013-09-25 | 2014-02-26 | 莱特尔科技(深圳)有限公司 | 用于led灯具的插拔式控制组件 |
JP2014099337A (ja) * | 2012-11-15 | 2014-05-29 | Iris Ohyama Inc | Ledランプ |
CN207112558U (zh) * | 2017-07-12 | 2018-03-16 | 鹰潭阳光照明有限公司 | 易于制作组装的红外线感应led吸顶灯 |
CN207421955U (zh) * | 2017-11-28 | 2018-05-29 | 泉州华茂光电有限公司 | 一种防水感应led投光灯 |
CN109084227A (zh) * | 2018-09-17 | 2018-12-25 | 深圳市思坎普科技有限公司 | 中置感应器的照明灯 |
CN109506225A (zh) * | 2018-12-20 | 2019-03-22 | 深圳市思坎普科技有限公司 | 一种照明灯用中置插拔式感应装置 |
CN109578955A (zh) * | 2018-12-20 | 2019-04-05 | 深圳市思坎普科技有限公司 | 一种中置感应器的照明灯 |
Family Cites Families (3)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US20120169805A1 (en) * | 2011-01-05 | 2012-07-05 | Bateson John E | Sensor |
US10117313B2 (en) * | 2015-08-17 | 2018-10-30 | Vaxcel International Co., Ltd. | Sensing lamp and sensing module thereof |
KR101811499B1 (ko) * | 2015-12-15 | 2017-12-21 | 엘지전자 주식회사 | 조명기기 및 조명기기의 제어방법 |
-
2019
- 2019-09-17 AU AU2019343684A patent/AU2019343684A1/en active Pending
- 2019-09-17 EP EP19787129.6A patent/EP3869096A4/en not_active Withdrawn
- 2019-09-17 WO PCT/CN2019/106285 patent/WO2020057521A1/zh unknown
-
2021
- 2021-03-16 US US17/203,716 patent/US11533796B2/en active Active
Patent Citations (8)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN201416806Y (zh) * | 2009-03-17 | 2010-03-03 | 楼萍 | 新型结构感应灯具 |
JP2014099337A (ja) * | 2012-11-15 | 2014-05-29 | Iris Ohyama Inc | Ledランプ |
CN103604097A (zh) * | 2013-09-25 | 2014-02-26 | 莱特尔科技(深圳)有限公司 | 用于led灯具的插拔式控制组件 |
CN207112558U (zh) * | 2017-07-12 | 2018-03-16 | 鹰潭阳光照明有限公司 | 易于制作组装的红外线感应led吸顶灯 |
CN207421955U (zh) * | 2017-11-28 | 2018-05-29 | 泉州华茂光电有限公司 | 一种防水感应led投光灯 |
CN109084227A (zh) * | 2018-09-17 | 2018-12-25 | 深圳市思坎普科技有限公司 | 中置感应器的照明灯 |
CN109506225A (zh) * | 2018-12-20 | 2019-03-22 | 深圳市思坎普科技有限公司 | 一种照明灯用中置插拔式感应装置 |
CN109578955A (zh) * | 2018-12-20 | 2019-04-05 | 深圳市思坎普科技有限公司 | 一种中置感应器的照明灯 |
Non-Patent Citations (1)
Title |
---|
See also references of EP3869096A4 * |
Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
WO2022069298A1 (en) * | 2020-09-29 | 2022-04-07 | Signify Holding B.V. | Luminaires with accessories, such as sensors |
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