JP3173622U - Light-emitting diode lamp - Google Patents

Abstract

A light-emitting diode illuminating lamp that provides emergency lighting as a backup power source using a replaceable battery device, and that has a simple structure and reduces costs.
An illumination main body 11A, a battery coupling means 12A, and a power supply switching control circuit 13A are included. The battery coupling means is installed on the outside side of the lighting body, and the user can easily install the battery device inside. Also, the battery device is a member that can be exchanged at any time. When the AC power supply is interrupted by being electrically connected to the control circuit, the power supply switching control circuit causes the battery device to supply power to the light emitting diode illumination lamp 1A and provides emergency lighting.
[Selection] Figure 1

Description

  The present invention relates to a light-emitting diode illumination technique, and more particularly to a light-emitting diode illumination lamp in which a user can replace a battery device at any time.

  In the prior art, the light emitting diode illuminating lamps that provide illumination include types of light emitting diode illuminating tubes and light emitting diode bulbs, etc. Taking a light emitting diode bulb as an example, a base, a radiator, a light emitting diode light in order from top to bottom Install the panel and translucent cover. A light-emitting diode light panel has a plurality of light-emitting diode lights installed, a power control circuit is installed in the light-emitting diode bulb, and when the light-emitting diode bulb penetrates the base and is screwed to the lamp socket, Connect to the city and receive the power supply provided by the city.

  However, in the above-described conventional technology, in the case of a power interruption, the city power cannot be supplied to the light-emitting diode bulb or the light-emitting diode lighting tube, and the light-emitting diode bulb or the light-emitting diode lighting tube cannot supply the lighting, Below, there is a problem that a general light-emitting diode bulb or a light-emitting diode illuminating tube cannot supply emergency lighting.

  In addition, for emergency response lighting that is already universally used in places such as buildings and roads, although it has a built-in power supply, a general method is to fix the power supply in the emergency lighting. For this reason, the fixed power source fixed in this kind of emergency lighting cannot be removed, so that the user cannot perform conversion or replacement, and the structure of the above-described conventional light emitting diode lamp needs to be improved.

  The present invention has been made in view of such conventional problems. In order to solve the above problems, the present invention provides a light-emitting diode illuminating lamp that provides emergency lighting by using a replaceable battery device as a standby power source, and achieves simplification of the structure and cost reduction. The main purpose.

  A second object of the present invention is to provide a light-emitting diode illuminating lamp that has a human body sensation sensor, provides emergency lighting by using a battery device as a standby power source, and achieves a power saving effect.

In order to solve the above-described problems and achieve the object, in a preferred embodiment, a light-emitting diode illuminating lamp according to the present invention includes:
The lighting body,
At least one battery coupling means that is installed outside the lighting body, the battery device is installed therein, and the battery device is a replaceable member;
A power supply switching control circuit which is installed in the lighting body and used to receive an alternating current of an alternating current power supply or a direct current of a battery device;
A light-emitting diode light panel electrically connected to the power supply switching control circuit, and having a plurality of light-emitting diodes installed thereon;
When the alternating current is larger than the predetermined value, the power supply switching control circuit sends the received alternating current to the light-emitting diode light panel, drives the light-emitting diode illumination lamp to output a light source having the parameters of the first illumination, and the alternating current. When the current is smaller than a predetermined value, the power supply switching control circuit sends the received direct current to the light emitting diode light panel to drive the light emitting diode illumination lamp to output a light source having the second illumination parameter. And

  In a preferred embodiment, the light emitting diode lamp according to the present invention further includes a human body sensor that is electrically connected to the power switching control circuit and senses whether a human body has entered the sensing range. When an approach of a human body into the range is detected, a human body response signal is transmitted to the power supply switching control circuit, and the light emitting diode illumination lamp is driven to output a light source having a first illumination parameter.

  In a preferred embodiment, in the light emitting diode lamp according to the present invention, when the alternating current is smaller than a predetermined value, the power supply switching control circuit causes the received direct current to flow to the light emitting diode light panel to drive the light emitting diode lamp. Thus, the output of the light source having the second illumination parameter is permanently maintained.

  In a preferred embodiment, the LED lamp according to the present invention is characterized in that the parameter of the first illumination corresponds to the parameter of the second illumination, or the parameter of the first illumination is different from the parameter of the second illumination. To do.

  In a preferred embodiment, the light-emitting diode illuminating lamp according to the present invention has a changeover switch between the power supply switching control circuit and the AC power supply, and when the changeover switch is in the OFF state or the AC power supply is in the power-off state, the AC current Is smaller than a predetermined numerical value.

  In a preferred embodiment, the light emitting diode lamp according to the present invention is configured such that the first illumination parameter and the second illumination parameter are the first illumination brightness and the second illumination brightness, respectively, or the first illumination parameter and the second illumination brightness. The illumination parameters are a first illumination color temperature and a second illumination color temperature, respectively.

  In a preferred embodiment, the light-emitting diode illuminating lamp according to the present invention is characterized in that at least one battery coupling means is a detachable battery base or a non-detachable battery base.

  In a preferred embodiment, the light-emitting diode illuminating lamp according to the present invention is characterized in that the illumination body is a light-emitting diode illuminating tube and has a storage space for storing the battery coupling means.

  In a preferred embodiment, the light-emitting diode illuminating lamp according to the present invention is a light-emitting diode bulb, and includes a base, a radiator and a translucent cover in order from top to bottom, and at least one battery coupling means is a heat-dissipating device. The battery device can be easily replaced by the user.

  In a preferred embodiment, the light-emitting diode illuminating lamp according to the present invention is characterized in that the power supply switching control circuit is installed in the radiator, has a storage space on the side of the radiator, and stores the battery coupling means. To do.

  In a preferred embodiment, at least one battery coupling means is a detachable battery base, the battery device has an annular shape, and the battery device is installed on the detachable battery base. The detachable battery base is installed in the upper end of the radiator through the base from the top to the bottom.

In a preferred embodiment, a light-emitting diode illuminating lamp according to the present invention comprises:
The lighting body,
A battery device installed in the lighting body;
A power supply switching control circuit which is installed in the lighting body and used to receive an alternating current of an alternating current power supply or a direct current of a battery device;
A light-emitting diode light panel electrically connected to the power supply switching control circuit, on which a plurality of light-emitting diodes are installed;
Human body response that is electrically connected to the power supply switching control circuit, detects whether a human body has entered the sensing range, and sends a human body response signal to the power switching control circuit when sensing the entry of the human body into the sensing range. Including
When the AC current exceeds a predetermined value and the human body sensor generates a human body response signal, the power supply switching control circuit sends the received AC current to the light emitting diode light panel and drives the light emitting diode illumination lamp for the first illumination. When the light source having the following parameters is output and the alternating current is smaller than the predetermined value, the power supply switching control circuit sends the received direct current to the light emitting diode light panel and drives the light emitting diode illumination lamp to set the parameters of the second illumination. A light source having the above is output.

  In a preferred embodiment, in the LED lighting device according to the present invention, when the alternating current is smaller than a predetermined numerical value, the power supply switching control circuit causes the direct current to flow to the light emitting diode light panel to drive the light emitting diode lighting lamp, and the second illumination. The output of a light source having the following parameters is permanently retained.

  In a preferred embodiment, the LED lamp according to the present invention is characterized in that the parameter of the first illumination corresponds to the parameter of the second illumination, or the parameter of the first illumination is different from the parameter of the second illumination. To do.

  In a preferred embodiment, the light-emitting diode illuminating lamp according to the present invention has a changeover switch between the power supply switching control circuit and the AC power supply, and when the changeover switch is in the off state or the AC power supply is in the power-off state, The current is smaller than a predetermined numerical value.

  In a preferred embodiment, the light-emitting diode lamp according to the present invention is configured such that the first illumination parameter and the second illumination parameter are the first illumination brightness and the second illumination brightness, respectively, or the first illumination parameter and the second illumination brightness. The illumination parameters are a first illumination color temperature and a second illumination color temperature, respectively.

  In a preferred embodiment, the light emitting diode illumination lamp according to the present invention is characterized in that the battery device is a replaceable member.

  In a preferred embodiment, the light-emitting diode illuminating lamp according to the present invention is characterized in that the illumination body is a light-emitting diode illuminating tube, a storage space is installed, and a user can easily replace the battery device therein.

  In a preferred embodiment, a light-emitting diode illuminating lamp according to the present invention is a light-emitting diode bulb, and includes a base, a radiator and a translucent cover in order from top to bottom, and a power switching control circuit is provided inside the radiator. In addition, at least one storage space is installed on the side wall of the radiator, and the user can easily replace the battery device therein.

  In a preferred embodiment, the light-emitting diode illuminating lamp according to the present invention is such that the illumination body is a light-emitting diode bulb, and includes a base, a radiator, and a light-transmitting cover in order from top to bottom, and the battery device has an annular shape. It is characterized in that it is installed at the upper end of the radiator through the base from below.

In a preferred embodiment, a light-emitting diode illuminating lamp according to the present invention comprises:
The lighting body,
A light-emitting diode light panel that is installed in the lighting body and on which a plurality of light-emitting diodes are installed,
At least one battery coupling means that is installed on the outside side of the lighting body, the battery device is installed therein, and the battery device is a replaceable member;
A human body sensor installed on the lighting body, sensing whether a human body is in the sensing range, and generating a human body sensing signal when sensing the human body sensing range;
Installed in the lighting body, electrically connected to the AC power source, at least one battery coupling means and the light emitting diode light panel, and any of the received AC current of the AC power source and the received DC current of the battery device And a power supply switching control circuit for transmitting one of them to the light-emitting diode light panel.

  In a preferred embodiment, the light emitting diode illuminating lamp according to the present invention is characterized in that at least one battery coupling means is a detachable battery base or a non-detachable battery base.

  In a preferred embodiment, in the light-emitting diode illuminating lamp according to the present invention, the battery device is a storage battery, a lithium battery, a dry battery, or a rechargeable battery.

  In a preferred embodiment, the light-emitting diode illuminating lamp according to the present invention has a power switching control circuit having a first power input terminal, a second power input terminal, and a power output terminal, and the first power input terminal is at least one battery coupling. The second power input terminal is electrically connected to the AC power source, and the power output terminal is electrically connected to the light emitting diode light panel.

  In a preferred embodiment, the light-emitting diode illuminating lamp according to the present invention is characterized in that the illumination body is a light-emitting diode illuminating tube and has a storage space for storing the battery coupling means.

  In a preferred embodiment, in the light-emitting diode illuminating lamp according to the present invention, the main body of the light-emitting diode illuminating tube has a cylindrical shape, the lower half of the light-emitting diode illuminating tube is a translucent cover, power insertion pins are installed at both ends, and The power insertion pin is electrically connected to the second power input terminal.

  In a preferred embodiment, the light-emitting diode illuminating lamp according to the present invention is such that the battery coupling means is a detachable battery base, a power connect line is installed, a power connect port is installed in the storage space, and a detachable battery is installed. When the base is inserted into the storage space, the power supply connection port is electrically connected between the power supply connection line and the first power supply input terminal, or the removable battery base is installed with the power supply contact pin installed. An electrode end is installed in the space, and when the detachable battery base is inserted into the storage space, the electrode end is electrically connected between the power contact pin and the first power input end. .

  In a preferred embodiment, the light-emitting diode illuminating lamp according to the present invention is characterized in that the storage space is installed in the upper half of the illumination body.

  In a preferred embodiment, the light-emitting diode illuminating lamp according to the present invention further includes a lid engaged with the opening of the battery coupling means.

  In a preferred embodiment, the light-emitting diode illuminating lamp according to the present invention is characterized in that the human body sensor is installed in the lower half of the light-emitting diode illuminating tube.

  In a preferred embodiment, the light-emitting diode illuminating lamp according to the present invention is a light-emitting diode light bulb, and includes a base, a radiator and a translucent cover in order from top to bottom, and battery coupling means is installed in the radiator. It is characterized by being.

  In a preferred embodiment, the light-emitting diode illuminating lamp according to the present invention is characterized in that the power supply switching control circuit is installed in the radiator.

  In a preferred embodiment, the light-emitting diode illuminating lamp according to the present invention is characterized in that a plurality of radiating blade pieces are installed on a side wall of the radiator.

  In a preferred embodiment, the light emitting diode illuminating lamp according to the present invention is characterized in that the human body sensitive device is installed at the bottom of the translucent cover.

  In a preferred embodiment, the light-emitting diode illuminating lamp according to the present invention is characterized in that the base electrode of the base is electrically connected to the second power input terminal.

  In a preferred embodiment, the light-emitting diode illuminating lamp according to the present invention has a storage space on the side of the radiator and stores the battery coupling means.

  In a preferred embodiment, in the light emitting diode illuminating lamp according to the present invention, the battery coupling means is a detachable battery base, and an engaging claw and a positioning tank are installed on the head and the bottom of the battery coupling means, respectively. When the engaging part and the positioning piece are installed on the bottom part and the bottom part, respectively, and the removable battery base is inserted into the storage space, the engaging claws of the removable battery base engage with the engaging part of the storage space The positioning piece of the storage space is inserted into a detachable battery-based positioning tank.

  In a preferred embodiment, in the light emitting diode illuminating lamp according to the present invention, the battery coupling means is a detachable battery base, the power contact pin is installed, the electrode end is installed in the storage space, and the detachable battery base is installed. Is inserted into the storage space, the electrode end is electrically connected between the power contact pin and the first power input end.

  In a preferred embodiment, the light-emitting diode illuminating lamp according to the present invention further includes a lid engaged with the opening of the battery coupling means.

  In a preferred embodiment, in the light-emitting diode illuminating lamp according to the present invention, at least one battery coupling means is a detachable battery base, the battery device has an annular shape, and the battery device is installed on the detachable battery base. The removable battery base is characterized in that it is installed in the upper end of the radiator through the base from top to bottom.

  In a preferred embodiment, the light-emitting diode illuminating lamp according to the present invention has at least one fitting portion installed at the lower end portion of the base, and when the removable battery base is installed at the upper end portion of the radiator, The upper end of the battery base is fitted into at least one fitting portion of the base, and the lower end of the detachable battery base is brought into contact with the upper end of the radiator.

  In a preferred embodiment, in the light emitting diode illuminating lamp according to the present invention, the battery coupling means is provided with the power contact pin, the electrode end is provided in the storage space, and the removable battery base is inserted into the storage space. The electrode end is electrically connected between the power contact pin and the first power input end.

  According to the present invention, a power saving effect can be obtained.

1 is a block schematic diagram of a concept according to a first embodiment of the present invention. It is a block-type schematic of the concept by 2nd Embodiment of this invention. 1 is a schematic structural view of a first preferred embodiment for improving the structure of a light-emitting diode illuminating lamp according to the present invention; It is the structure schematic from the other viewing angle of the light emitting diode illuminating lamp of FIG. FIG. 4 is a three-dimensional exploded view of a partial structure of the light-emitting diode illuminating lamp of FIG. 3. FIG. 6 is a schematic structural view of a second preferred embodiment for improving the structure of a light-emitting diode illuminating lamp according to the present invention; It is the schematic of the state when the battery apparatus of the light emitting diode illuminating lamp of FIG. 6 is removed. It is the schematic of the state when the detachable battery base of the light emitting diode illuminating lamp of FIG. 6 is removed. It is the structure schematic in 3rd Embodiment preferable for the structure improvement of the light emitting diode illuminating lamp which concerns on this invention. FIG. 10 is a three-dimensional exploded view of the light-emitting diode illuminating lamp of FIG. 9.

Hereinafter, embodiments for carrying out the present invention will be described in detail with reference to the drawings. The present invention is not limited to the embodiments described below.
First, a first embodiment of a light-emitting diode illuminating lamp of the present invention will be described.

  FIG. 1 is a block schematic diagram of a concept of a preferred first embodiment of a light-emitting diode illuminating lamp according to the present invention. The light emitting diode illumination lamp 1A includes a lighting body 11A, a battery coupling means 12A, a power supply switching control circuit 13A, a light emitting diode light panel 14A, and a plurality of light emitting diodes 15A installed on the light emitting diode light panel 14A. The light-emitting diode light panel 14A is installed in the illumination main body 11A, the power switching control circuit 13A is electrically connected to the AC power source 9A, the battery coupling means 12A and the light-emitting diode light panel 14A, and the battery coupling means 12A is a battery device. 8A is installed therein, the AC current from the AC power source 9A and the DC current from the battery device 8A are transmitted to the power source switching control circuit 13A, and the power source switching control circuit 13A is also included in the received AC current and DC current. Either one is transmitted to the light-emitting diode light panel 14A, and the light is emitted. It drives the plurality of light emitting diodes 15A on the diode light panel 14A to output light source.

  Preferably, the power supply switching control circuit 13A has a first power supply input terminal 131A, a second power supply input terminal 132A, and a power supply output terminal 133A, and the first power supply input terminal 131A is electrically connected to the battery coupling means 12A. The dual power supply input terminal 132A is electrically connected to an AC power supply 9A (for example, city power), and the power supply output terminal 133A is electrically connected to the light-emitting diode light panel 14A, whereby the direct current from the battery device 8A is connected to the battery. After sequentially passing through the means 12A and the first power supply input terminal 131A, the power is supplied to the power supply switching control circuit 13A, and the alternating current from the AC power supply passes through the second power supply input terminal 132A and then to the power supply switching control circuit 13A. Any one of the alternating current and the direct current received by the power supply switching control circuit 13A is light-emitting diode via the power supply output terminal 133A. It flowed to the Itopaneru 14A.

  Next, in a preferred embodiment, when the alternating current received by the power supply switching control circuit 13A is larger than a predetermined value, the power supply switching control circuit 13A sends the received alternating current to the light emitting diode light panel 14A to emit light. When the diode illumination lamp 1A is driven to output a light source having parameters of the first illumination, and the alternating current received by the power supply switching control circuit 13A is smaller than a predetermined value, the power supply switching control circuit 13A receives the received direct current. Is sent to the light-emitting diode light panel 14A, and the light-emitting diode illumination lamp 1A is driven to output a light source having the parameters of the second illumination.

  Either a rectification process is performed before the alternating current is supplied to the light emitting diode light panel 14A, or a direct current is applied to the light emitting diode light panel 14A. A plurality of light emitting diodes 15A on the light panel 14A can be driven to output a light source, which is known to those skilled in the art and will not be described in further detail here.

  In addition, the changeover switch 7A is electrically connected between the AC power supply 9A and the power supply changeover control circuit 13A, and controls the amount of AC power flowing through the power supply changeover control circuit 13A. In other words, the changeover switch 7A is in the OFF state. In this case, the amount of alternating current flowing through the power supply switching control circuit 13A is very small. Furthermore, in the present preferred embodiment, when the changeover switch 7A is in an OFF state or when the AC power supply 9A is in a power-off state, the amount of alternating current flowing through the power supply switching control circuit 13A is smaller than a predetermined value. Designed as such.

  In a preferred embodiment, the first illumination parameter and the second illumination parameter are the first illumination brightness and the second illumination brightness, respectively, or the first illumination parameter and the second illumination parameter are respectively the first illumination color temperature. And the second illumination color temperature. Specifically, the illumination brightness of the light source output when the light emitting diode illumination lamp 1A is driven by an alternating current, and the illumination brightness of the light source output when the light emitting diode illumination lamp 1A is driven by a direct current, One of the applications brought about by the illumination brightness of the two light sources being different from each other is whether or not the changeover switch 7A is in an OFF state or whether or not the AC power supply 9A is in an interruption state. There is a point that can be easily determined, that is, the user can easily determine whether or not the light emitting diode illumination lamp 1A consumes the power of the battery device 8A.

  Of course, the illumination color temperature of the light source that is output when the light-emitting diode illumination lamp 1A is driven by an alternating current is different from the illumination color temperature of the light source that is output when the light-emitting diode illumination lamp 1A is driven by a direct current. The color temperature is designed so that the user can easily determine whether or not the light-emitting diode illumination lamp 1A is consuming the power of the battery device 8A.

Of course, the above is only according to one preferred embodiment, and is not limited thereto. For example, setting a predetermined numerical value or defining the parameters of the first illumination and the second illumination, etc. Anyone familiar with this field can make any uniform design change according to the needs of the actual application. In addition, the parameters of the first illumination described above correspond to the parameters of the second illumination, or the parameters of the first illumination are different from the parameters of the second illumination.
Next, a second embodiment of the light-emitting diode illuminating lamp of the present invention will be described.

  FIG. 2 is a block schematic diagram of the concept of a second preferred embodiment of a light-emitting diode illuminating lamp according to the present invention. The light emitting diode lamp 1B of the present preferred embodiment is similar to that described in the first preferred embodiment of the present invention and will not be described in further detail here.

  The preferred embodiment differs from the first preferred embodiment described above in that the light-emitting diode lamp 1B further includes a human body sensor 16B, which is electrically connected to the power supply switching control circuit 13B and is within the sensing range. It is a point that senses the presence of a human body. When the human body sensor 16B senses entry into the sensing range of the human body, it sends a human body response signal to the power supply switching control circuit 13B.

  Another difference of the present preferred embodiment from the above-described preferred first embodiment is that the power supply switching control circuit 13B receives the alternating current received for the first time under a situation where all of the following two requirements are satisfied. 14B, and the light emitting diode illumination lamp 1B is driven to output a light source having parameters of the first illumination. The first requirement is that the amount of AC power received by the power supply switching control circuit 13B is greater than a predetermined value, and the second requirement is that the human body sensor 16 senses the presence of a human body within the sensing range. The human body response signal is transmitted to the power supply switching control circuit 13.

  For example, if the AC power supply 9B supplies power normally and the changeover switch 7B is in the on state, and the human body sensor 16B does not detect the presence of a human body within the sensing range, the light emitting diode illumination lamp 1B outputs a light source. In this case, the power saving effect is achieved, and when the human body sensor 16B detects that the human body has entered the sensing range, the light emitting diode lamp 1B is driven to output a light source having the parameters of the first illumination. Let

  When the AC power supply 9B is in a power cut-off state or when the changeover switch 7B is in an OFF state, the power supply switching control circuit 13B uses the received DC current as a light emitting diode light because the received AC current is smaller than a predetermined value. The light is sent to the panel 14B, and the light-emitting diode illuminating lamp 1B is driven to output the light source having the second illumination parameter.

  The user can easily determine whether or not the change-over switch 7B is in the OFF state, or can determine whether or not the AC power supply is in the power-off state, or the user can use the light emitting diode illumination lamp 1B as the battery device. The first illumination parameter is designed to be different from the second illumination parameter so that it can be determined whether or not 8B of power is consumed, and the first illumination parameter corresponds to the second illumination parameter. If the AC power supply 9B is designed to be in an intermittent state, or if the changeover switch 7B is in the OFF state, the power supply switching control circuit 13B continuously supplies a direct current to the light emitting diode light panel 14B. The light emitting diode illumination lamp 1B is made to hold the output of the light source permanently.

  Incidentally, in the above-described second preferred embodiment, the battery device 8B is installed in the battery coupling means 12B before the light-emitting diode illuminating lamp 1B is manufactured, and the user cannot perform attachment / detachment and replacement by himself / herself. Of course, in the above-described preferred first embodiment and preferred second embodiment, the light-emitting diode illuminating lamp 1A and the light-emitting diode illuminating lamp 1B after manufacture are designed to have only the battery coupling means 12A and the battery coupling means 12B, The battery device 8A and the battery device 8B are interchangeable members, and the user installs the battery device 8A and the battery device 8B on the light emitting diode illumination lamp 1A and the battery coupling means 12A and the battery coupling means 12B of the light emitting diode illumination lamp 1B. I can do it.

  Further, in the above-described preferred first embodiment and preferred second embodiment, the battery coupling means 12A and the battery coupling means 12B are provided in the illumination body 11A and the illumination body 11B before the light-emitting diode illumination lamp 1A and the light-emitting diode illumination lamp 1B are manufactured. The user cannot install and remove the battery coupling means 12A and the battery coupling means 12B by himself / herself, but the user installs the battery device 8A and the battery device 8B in the battery coupling means 12A and the battery coupling means 12B. I can do it.

  Naturally, the battery coupling means 12A and the battery coupling means 12B of the light-emitting diode illuminating lamp 1A and the light-emitting diode illuminating lamp 1B after the manufacture are also designed with interchangeable members, and the user can connect the battery device 8A and the battery device 8B with the battery coupling means. After being coupled to 12A and the battery coupling means 12B, both can be assembled and installed in the illumination body 11A and the illumination body 11B of the light-emitting diode illumination lamp 1A and the light-emitting diode illumination lamp 1B.

  Accordingly, the present invention provides an innovative light emitting diode illuminating structure improvement, and mainly has a storage space for installing the battery coupling means 12A and the battery coupling means 12B on the outside of the lighting main body 11A and the lighting main body 11B. Then, the user can easily replace the battery device 8A and the battery device 8B with each other, or can easily remove the battery device 8A and the battery device 8B from the battery coupling means 12A and the battery coupling means 12B. Three preferred embodiments will be described below as examples, but the protection scope of the present invention is not limited thereto.

First Embodiment FIG. 3 is a schematic structural view of a first preferred embodiment for improving the structure of a light-emitting diode illuminating lamp according to the present invention, and FIG. 4 is a view from another viewing angle of the light-emitting diode illuminating lamp of FIG. FIG. 5 is a schematic exploded view, and FIG. 5 is a three-dimensional exploded view of a partial structure of the light-emitting diode illuminating lamp of FIG.

  In this embodiment, the illumination body of the light-emitting diode illuminating lamp 1C is a light-emitting diode illuminating tube 11C, the battery coupling means is a detachable battery base 12C, and the light-emitting diode illuminating tube 11C houses the detachable battery base 12C. The battery device 8C has a storage space 111C and is installed in a detachable battery base 12C to provide an emergency power source.

  The light-emitting diode light panel is fixed in the light-emitting diode illuminating tube 11C, and power supply insertion pins 112C are installed at both ends of the light-emitting diode illuminating tube 11C, respectively, and an AC power source (for example, city power, not shown, see FIGS. 1 and 2). And a power supply switching control circuit (not shown, see FIGS. 1 and 2) is a light emitting diode light panel (not shown, FIG. 1 and FIG. 2). 2), and when the detachable battery base 12C is placed in the storage space 111C and the battery device 8C is inserted into the detachable battery base 12C, the detachable battery base 12C is a power switching control circuit. The battery device 8C is electrically connected to the first power input terminal (not shown, see FIGS. 1 and 2) of the power supply switching control circuit.

  The second power supply input terminal (not shown, see FIGS. 1 and 2) of the power supply switching control circuit is electrically connected to the power supply insertion pin 112C, and the power supply output terminal (not shown, FIG. 2) is electrically connected to the light emitting diode light panel. Here, the power source switching control circuit is used for switching energization of the first power source input terminal or the second power source input terminal, and is connected corresponding to an AC power source (for example, city power) or the battery device 8C.

  When an AC power source (for example, city power) is provided, the power source switching control circuit is connected to the AC power source (for example, city power) by the second power source input terminal. At this time, the AC power source (for example, city power) is connected to the LED lighting tube 11C. Is supplied with power to provide lighting, and never uses the power of the battery device 8C. When the AC power supply (for example, city power) is cut off or the changeover switch (not shown, see FIGS. 1 and 2) is turned off, the power supply switching control circuit is connected to the battery device 8C by the first power supply input terminal, At this time, the battery device 8C supplies power to the light-emitting diode illuminating tube 11C to provide emergency lighting.

  In this embodiment, the battery device 8C is a member that can be converted and can be removed from the removable battery base 12C of the light emitting diode illumination tube 11C at any time, and can be replaced with the removable battery base 12C of the light emitting diode illumination tube 11C at any time. Therefore, the user can easily perform replacement and maintenance, and the battery device 8C can be easily removed and collected separately, which is excellent in terms of environmental protection. Furthermore, since the battery device 8C can be selected from a storage battery, a lithium battery, a dry battery, or a rechargeable battery, the battery device 8C has high versatility and is easy to maintain and replace.

  In this embodiment, the light-emitting diode illuminating tube 11C has a cylindrical shape, and the lower half is a translucent cover, which is provided with a plurality of light-emitting diodes (not shown, see FIGS. 1 and 2) on the light-emitting diode light panel. Radiate the light source to the outside. Subsequently, the storage space 111C is installed in the upper half of the light emitting diode illumination tube 11C. Preferably, the light-emitting diode illuminating lamp 1C further includes a lid 17C. The lid 17C is engaged with the opening of the detachable battery base 12C, and when the battery device 8C is housed in the detachable battery base 12C, the light-emitting diode The lighting tube 11C retains its original appearance, and it is not necessary to modify the lamp socket and other corresponding accessories of the light-emitting diode lighting tube 11C, and the battery device 8C can be protected.

  The detachable battery base 12C is provided with a power supply connect line (not shown), and a power supply connect port (not shown) is provided in the storage space 111C, which is connected to the first power input terminal of the power supply switching control circuit. When the detachable battery base 12C is electrically connected and is inserted into the storage space 111C, the detachable battery base 12C is inserted into the power supply connect port so that the detachable battery base 12C is the first power source of the power switching control circuit. Electrically connect to the input end.

  Alternatively, the detachable battery base 12C is provided with a power contact pin (not shown), and an electrode end (not shown) is provided in the storage space 111C, which is the first power input terminal of the power switching control circuit. When the detachable battery base 12C is inserted into the storage space 111C, the detachable battery base 12C is brought into contact with the electrode end to make the detachable battery base 12C the first power source of the power switching control circuit. Electrically connect to the input end.

  In addition, the human body sensor 16C of the light-emitting diode illuminating lamp 1C is fixed to an intermediate position or a lateral position of the lower half of the light-emitting diode illuminating tube 11C. The human body sensor 16C is used to detect whether or not a human body has entered the sensing range. If a human body enters the sensing area, the human body sensor 16C transmits a human body sensing signal to the power supply switching control circuit to light up the light emitting diode. The tube 11C is activated to provide illumination.

  Incidentally, the above is only one embodiment of the light emitting diode illumination lamp, and the battery coupling means may be a non-detachable battery base. For example, the illumination body (light emitting diode lighting tube) is connected to the battery coupling means (non-detachable battery). It is possible to prevent the user from taking out the battery coupling means from the inside of the lighting body.

Second Embodiment FIG. 6 is a schematic structural view of a second preferred embodiment for improving the structure of a light-emitting diode illuminating lamp according to the present invention. In the present embodiment, the illumination body of the light-emitting diode illuminating lamp 1D is a light-emitting diode bulb 11D, and a base 113D, a radiator 114D, and a translucent cover 115D are installed in order from the top to the bottom, and a light-emitting diode light panel (not shown). 1 and 2) and a power source switching control circuit (not shown, see FIGS. 1 and 2) are installed in the light-emitting diode bulb, and the base 113D is an AC power source (for example, city power, not shown, FIG. 1). And is inserted into a lamp socket (not shown) that exhibits an electrical connection with each other. Preferably, a plurality of heat radiating blade pieces 1141D are further installed on the side wall of the radiator 114D, a storage cavity (not shown) is omitted inside, and a power supply switching control circuit is installed therein.

  In addition, the side wall of the radiator 114D has a storage space 111D (see FIG. 8) for storing the battery coupling means. The battery coupling means is a detachable battery base 12D, in which the battery device 8D is installed. The emergency power supply is provided, and the detachable battery base 12D exposes the local part to the outside of the radiator 114D.

  In this embodiment, three storage spaces 111D are not provided on the side wall of the radiator 114D and are evenly distributed, and are used for storing three detachable battery bases 12D. Of course, the quantity of the storage space 111D and the quantity of the detachable battery base 12D are not limited to this, and those skilled in this field can make any equivalent design change according to the actual application needs.

  Next, according to FIG. 6, when the detachable battery base 12D is placed in the storage space 111D and the battery device 8D is inserted into the detachable battery base 12D, the detachable battery base 12D controls the power supply switching. The battery device 8D is electrically connected to the circuit, and is electrically connected to the first power input terminal (not shown, see FIGS. 1 and 2) of the power supply switching control circuit.

  The base 113D is provided with a base electrode (not shown) and electrically connected to a second power input terminal (not shown, see FIGS. 1 and 2) of the power switching control circuit. A power output terminal (not shown, see FIGS. 1 and 2) is electrically connected to the light emitting diode light panel. Here, the power supply switching control circuit is used for switching energization to the first power supply input terminal or the second power supply input terminal, and is connected corresponding to an AC power supply (for example, city power) or the battery device 8D.

  When an AC power source (for example, city power) is provided, the power supply switching control circuit is connected to the AC power source (for example, city power) by the second power source input terminal, and at this time, the AC power source (for example, city power) is supplied to the light-emitting diode bulb 11D. Power is supplied to provide illumination, and the battery device 8D power is never used. When an AC power source (for example, city power) is cut off, or when a changeover switch (not shown, see FIGS. 1 and 2) is turned off, the power supply switching control circuit is connected to the battery device 8D by the first power supply input terminal. At this time, the battery device 8D supplies power to the light-emitting diode bulb 11D to provide emergency lighting.

  In this embodiment, the battery device 8D is a convertible member. FIG. 7 is a schematic view of a state in which the battery device of the light emitting diode illumination lamp of FIG. 6 is removed. According to FIG. 7, the battery device 8D can be removed from the detachable battery base 12D at any time. It can be inserted into the base 12D at any time, and the user can easily replace and maintain the battery, and the battery device 8D can be easily removed and separated and collected, which is excellent in terms of environmental protection. Furthermore, since the battery device 8D can be selected from a storage battery, a lithium battery, a dry battery, or a rechargeable battery, the battery device 8D has high versatility and can be easily maintained and replaced.

  Preferably, the light-emitting diode illumination lamp 1D includes a lid (not shown) that is engaged with an opening of the detachable battery base 12D, and emits light when the battery device 8D is stored in the detachable battery base 12D. The original appearance of the diode bulb 11D is maintained, and the battery bulb 8D is also protected.

  FIG. 8 is a schematic view of a state where the detachable battery base of the light emitting diode illumination lamp of FIG. 6 is removed. In this embodiment, the engaging claw 121 is installed on the head of the detachable battery base 12D, the positioning tank 122 is installed on the bottom thereof, and the engaging portion (not shown) is installed on the head of the storage space 111D. In the case where the positioning piece 1111 is installed at the bottom and the detachable battery base 12D is inserted into the storage space 111D, the engaging claws 121 of the detachable battery base 12D The positioning piece 1111 of the storage space 111D is inserted into the positioning tank 122 of the detachable battery base 12D.

  Subsequently, the detachable battery base 12D is provided with a power contact pin (not shown), an electrode end (not shown) is installed in the storage space 111D, and the first power input terminal of the power switching control circuit. When the detachable battery base 12D is inserted into the storage space 111D, the power contact pin is brought into contact with the electrode end, so that the detachable battery base 12D is connected to the first of the power supply switching control circuit. Since it is electrically connected to the power input end, it can be easily assembled and connected.

  In addition, the human body sensor 16D of the light-emitting diode illumination lamp 1D is installed at the bottom of the translucent cover 115D, and the human body sensor 16D is used to detect whether or not a human body has entered the detection range. When a human body enters the vehicle, a human body response signal is transmitted to the power supply switching control circuit, and the light-emitting diode bulb 11D is activated to provide illumination.

  Incidentally, the above is only one embodiment of the light emitting diode illumination lamp, and the battery coupling means may be a non-detachable battery base. For example, the illumination body (light emitting diode bulb) is connected to the battery coupling means (non-detachable battery base). The battery coupling means cannot be removed from the lighting body.

  FIG. 9 is a schematic structural diagram of a third preferred embodiment for improving the structure of a light-emitting diode illuminating lamp according to the present invention, and FIG. 10 is a three-dimensional exploded view of the light-emitting diode illuminating lamp of FIG. In this embodiment, the illumination body of the light-emitting diode illuminating lamp 1E is a light-emitting diode bulb 11E, and a base 113E, a radiator 114E, and a translucent cover 115E are installed in order from the top to the bottom, and a light-emitting diode light panel (not shown) 1 and 2) and a power source switching control circuit (not shown, see FIGS. 1 and 2) are installed in the light-emitting diode bulb 11E, and the base 113E is an AC power source (for example, city power, not shown, FIG. 1). And is inserted into a lamp socket (not shown) that exhibits an electrical connection with each other. Preferably, a plurality of heat radiating blade pieces 1141E are further installed on the side wall of the radiator 114E, a housing cavity (not shown) is omitted inside, and a power supply switching control circuit is installed therein.

  In addition, the side wall around the upper end of the radiator 114E has a storage space 111E for storing the battery coupling means. In this embodiment, the battery coupling means is a detachable battery base 12E, and the battery device 8E Install it inside and provide emergency power. In addition, after the battery device 8E is installed on the detachable battery base 12E, the detachable battery base 12E passes from the top to the bottom through the base 113 and is installed in the upper end portion of the radiator 114E to enter the storage space 111E. Be positioned.

  Subsequently, when the detachable battery base 12E is positioned in the storage space 111E and the battery device 8E is installed in the detachable battery base 12E, the detachable battery base 12E is electrically connected to the power supply switching control circuit. The battery device 8E is electrically connected to the first power supply input terminal of the power supply switching control circuit.

  The base 113E is provided with a base electrode (not shown) and electrically connected to the second power input terminal of the power switching control circuit, and the power output terminal of the power switching control circuit is electrically connected to the light emitting diode light panel. The Here, the power supply switching control circuit is used for switching the energization of the first power supply input terminal or the second power supply input terminal, and is connected corresponding to an AC power supply (for example, city power) or the battery device 8E.

  When an AC power source (for example, city power) is provided, the power supply switching control circuit is connected to the AC power source (for example, city power) by the second power input terminal, and the AC power source (for example, city power) is connected to the light-emitting diode bulb 11E. Power is supplied and illumination is provided, and the battery device 8E is never consumed. When an AC power supply (for example, city power) is cut off or a changeover switch (not shown, see FIGS. 1 and 2) is turned off, the power supply switching control circuit is connected to the battery device 8E by the first power supply input terminal. At this time, the battery device 8E supplies power to the light-emitting diode bulb 11E to provide emergency lighting.

  In this embodiment, the battery device 8E is an annular member that can be converted, and can be removed from the removable battery base 12E at any time and inserted into the removable battery base 12E at any time. In addition, since the battery device 8E can be easily removed and separated and collected, it is excellent in terms of environmental protection. Furthermore, since the battery device 8E can be selected from a storage battery, a lithium battery, a dry battery, or a rechargeable battery, the battery device 8E is highly versatile and easy to maintain and replace.

  In this embodiment, when at least one fitting part 1131 is installed at the lower end of the base 113E and the detachable battery base 12E is positioned in the storage space, the upper end of the detachable battery base 12E is the base 113E. The lower end of the detachable battery base 12E is brought into contact with the upper end of the radiator 114E, so that the detachable battery base 12E is connected to the radiator. It is fixed in the storage space 111E at the upper end of 114E.

  If the detachable battery base 12E is removed from the light-emitting diode bulb 11E, the upper end of the detachable battery base 12E is fitted to the lower end of the base 113E by pushing the detachable battery base 12E from the bottom to the top. The detachable battery base 12E can be removed by detaching from the joint portion 1131. As described above, assembly and removal of the detachable battery base 12E are simple and can be easily and quickly performed, and the light-emitting diode bulb 11E can be quickly replaced with the battery device 8E.

  Further, the detachable battery base 12E is provided with a power contact pin (not shown), and the storage space 111E is provided with an electrode end (not shown) to electrically connect the first power input terminal of the power switching control circuit. When the detachable battery base 12E is stored in the storage space 111E, the detachable battery base 12E is brought into contact with the electrode end so that the detachable battery base 12E is input to the first power source of the power switching control circuit. Because it is electrically connected to the end, it can be easily assembled and connected.

  In addition, the human body sensor 16E of the light-emitting diode illuminating lamp 1E is installed at the bottom of the translucent cover 115E, and the human body sensor 16E is used to detect whether or not a human body has entered the detection range. When a human body approach is detected, a human body response signal is transmitted to the power supply switching control circuit, and the light-emitting diode bulb 11E is activated to provide illumination.

  As mentioned above, this invention is not limited to such embodiment, In the range which does not deviate from the meaning of invention, it can implement with a various form.

DESCRIPTION OF SYMBOLS 1A Light-emitting diode lamp 1B Light-emitting diode lamp 1C Light-emitting diode lamp 1D Light-emitting diode lamp 1E Light-emitting diode lamp 11A Lighting main body 11B Lighting main body 11C Light-emitting diode lighting tube 11D Light-emitting diode light bulb 11E Light-emitting diode light bulb 111C Storage space 111D Storage space 111E Storage space 1111 Positioning piece 112C Power supply insertion pin 113D Base 113E Base 1131 Fitting part 114D Radiator 114E Radiator 1141D Radiator blade 1141E Radiator blade 115D Translucent cover 115E Translucent cover 12A Battery coupling means 12B Battery coupling means 12C Detachment Battery base 12D Removable battery base 12E Removable battery base 121 Engaging claw 122 Positioning tank 13A Power supply switching control circuit 13B Power supply switching control circuit 131A First power on Power terminal 131B First power input terminal 132A Second power input terminal 132B Second power input terminal 133A Power output terminal 133B Power output terminal 14A Light emitting diode light panel 14B Light emitting diode light panel 15A Multiple light emitting diodes 15B Multiple light emitting diodes 16B Human body Sensor 16C Human sensor 16D Human sensor 16E Human sensor 17C Lid 7A Changeover switch 7B Changeover switch 8A Battery device 8B Battery device 8C Battery device 8D Battery device 8E Battery device 9A AC power supply 9B AC power supply

Claims (42)

A light-emitting diode lamp,
The lighting body,
At least one battery coupling means installed on the outside side of the illumination body, the battery device is installed therein, and the battery device is a replaceable member;
A power supply switching control circuit which is installed in the lighting body and used for receiving an alternating current of an alternating current power supply or a direct current of the battery device;
A light-emitting diode light panel electrically connected to the power supply switching control circuit, and having a plurality of light-emitting diodes installed thereon;
When the alternating current is larger than a predetermined value, the power supply switching control circuit causes the received alternating current to flow to the light emitting diode light panel to drive the light emitting diode illumination lamp and to have a light source having a first illumination parameter. When the alternating current is smaller than the predetermined numerical value, the power supply switching control circuit causes the received direct current to flow to the light emitting diode light panel to drive the light emitting diode illumination lamp, thereby causing the second illumination. A light-emitting diode illuminating lamp that outputs a light source having the following parameters.   A human body sensor that is electrically connected to the power supply switching control circuit and senses whether a human body has entered the sensing range, and the human body sensor senses the human body entering the sensing range; 2. The light emitting diode illumination according to claim 1, wherein a human body response signal is transmitted to the power supply switching control circuit, and the light emitting diode illumination lamp is driven to output a light source having the parameters of the first illumination. light.   When the alternating current is smaller than the predetermined numerical value, the power supply switching control circuit causes the received direct current to flow to the light emitting diode light panel, and drives the light emitting diode illumination lamp to have the second illumination parameter. The light emitting diode illumination lamp according to claim 1, wherein the output of the light source is permanently maintained.   The LED illumination of claim 1, wherein the first illumination parameter corresponds to the second illumination parameter, or the first illumination parameter is different from the second illumination parameter. light.   There is a changeover switch between the power supply switching control circuit and the AC power supply, and when the changeover switch is in an OFF state or the AC power supply is in a power interruption state, the AC current is smaller than the predetermined value. The light-emitting diode illuminating lamp according to claim 1, wherein   The first illumination parameter and the second illumination parameter are the first illumination brightness and the second illumination brightness, respectively, or the first illumination parameter and the second illumination parameter are the first illumination color temperature and the second illumination brightness, respectively. The light-emitting diode illuminating lamp according to claim 1, wherein the illumination color temperature is two-illumination.   The light emitting diode illumination lamp according to claim 1, wherein the at least one battery coupling means is a detachable battery base or a non-detachable battery base.   The light-emitting diode illuminating lamp according to claim 7, wherein the illumination body is a light-emitting diode illuminating tube and has a storage space for storing the battery coupling means.   The lighting body is a light-emitting diode bulb, and includes a base, a radiator and a light-transmitting cover in order from top to bottom, and the at least one battery coupling means is installed on the side of the radiator, so that the user can easily The light-emitting diode illuminating lamp according to claim 7, wherein the battery device can be replaced.   10. The light emitting diode illumination according to claim 9, wherein the power supply switching control circuit is installed inside the radiator, and has a storage space on a side of the radiator to store the battery coupling unit. light.   The at least one battery coupling means is the detachable battery base, the battery device has an annular shape, and after the battery device is installed on the detachable battery base, the detachable battery base is The light-emitting diode illuminating lamp according to claim 9, wherein the light-emitting diode illuminating lamp is installed in an upper end portion of the radiator through the base from below. A light-emitting diode lamp,
The lighting body,
A battery device installed in the lighting body;
A power supply switching control circuit that is installed in the lighting body and used to receive an alternating current of an alternating current power supply or a direct current of a battery device;
A light-emitting diode light panel electrically connected to the power supply switching control circuit, on which a plurality of light-emitting diodes are installed;
When electrically connected to the power supply switching control circuit, senses whether a human body has entered the sensing range, and senses the human body entering the sensing range, a human body response signal is sent to the power supply switching control circuit. Including a human body sensor
When the AC current becomes larger than a predetermined value and the human body sensor generates the human body response signal, the power supply switching control circuit passes the received AC current to the light emitting diode light panel, and the light emitting diode illumination lamp When the alternating current is smaller than the predetermined numerical value, the power supply switching control circuit passes the received direct current to the light emitting diode light panel. A light-emitting diode illuminating lamp, wherein the light-emitting diode illuminating lamp is driven to output a light source having a second illumination parameter.   When the alternating current is smaller than the predetermined numerical value, the power supply switching control circuit causes the direct current to flow to the light emitting diode light panel to drive the light emitting diode illumination lamp and to output an output of the light source having the second illumination parameter. The light-emitting diode illuminating lamp according to claim 12, wherein the light-emitting diode illuminating lamp is permanently held.   The LED illumination according to claim 11, wherein the parameter of the first illumination corresponds to the parameter of the second illumination, or the parameter of the first illumination is different from the parameter of the second illumination. light.   There is a changeover switch between the power supply switching control circuit and the AC power supply, and the AC current is smaller than the predetermined numerical value when the changeover switch is in an OFF state or the AC power supply is in an interruption state. The light-emitting diode illuminating lamp according to claim 12.   The first illumination parameter and the second illumination parameter are a first illumination brightness and a second illumination brightness, respectively, or the first illumination parameter and the second illumination parameter are a first illumination color temperature and a second illumination brightness, respectively. The light-emitting diode illuminating lamp according to claim 12, wherein the illumination color temperature is two-lighting.   The light emitting diode illumination lamp according to claim 12, wherein the battery device is a replaceable member.   The light-emitting diode illuminating lamp according to claim 17, wherein the illumination body is a light-emitting diode illuminating tube, a storage space is provided, and a user can easily replace the battery device therein.   The illumination body is a light-emitting diode bulb, and includes a base, a radiator and a light-transmitting cover in order from top to bottom, the power supply switching control circuit is installed inside the radiator, and at least on the side wall of the radiator The light-emitting diode illuminating lamp according to claim 17, wherein a single storage space is installed, and a user can easily replace the battery device therein.   The lighting body is a light-emitting diode bulb, and includes a base, a radiator, and a light-transmitting cover in order from top to bottom, and the battery device has an annular shape, penetrates the base from top to bottom, and The light-emitting diode illuminating lamp according to claim 17, wherein the light-emitting diode illuminating lamp is installed in an upper end portion. A light-emitting diode lamp,
The lighting body,
A light-emitting diode light panel installed in the lighting body, and a plurality of light-emitting diodes are installed thereon,
At least one battery coupling means that is installed on the outside side of the lighting body, has a battery device installed therein, and the battery device is a replaceable member;
A human body sensor installed on the lighting body, sensing whether a human body has entered the sensing range, and generating a human body sensing signal when sensing the human body entering the sensing range;
Installed in the lighting body, electrically connected to the AC power source, the at least one battery coupling means and the light emitting diode light panel, and received AC current of the AC power source and received DC of the battery device A light-emitting diode illuminating lamp, comprising: a power supply switching control circuit for transmitting any one of currents to the light-emitting diode light panel.   The light emitting diode illumination lamp of claim 21, wherein the at least one battery coupling means is a detachable battery base or a non-detachable battery base.   The light emitting diode illumination lamp according to claim 22, wherein the battery device is a storage battery, a lithium battery, a dry battery, or a rechargeable battery.   The power supply switching control circuit has a first power supply input terminal, a second power supply input terminal, and a power supply output terminal, and the first power supply input terminal is electrically connected to the at least one battery coupling means, 23. The light emitting diode lamp according to claim 22, wherein an input end is electrically connected to the AC power source, and a power output end is electrically connected to the light emitting diode light panel.   25. The light emitting diode illumination lamp according to claim 24, wherein the illumination body is a light emitting diode illumination tube and has a storage space for storing the battery coupling means.   The light-emitting diode illuminating tube has a cylindrical shape, the lower half of which is a translucent cover, power supply insertion pins installed at both ends thereof, and the power supply insertion pins are electrically connected to the second power supply input end. The light-emitting diode illuminating lamp according to claim 25, wherein the light-emitting diode illuminating lamp is connected to the light-emitting diode.   When the battery coupling means is the detachable battery base, a power connect line is installed, a power connect port is installed in the storage space, and the detachable battery base is inserted into the storage space, The power supply connection port is electrically connected between the power supply connection line and the first power supply input terminal, or the detachable battery base is provided with a power supply contact pin, and a power supply pin is installed in the storage space. When the extreme is installed and the detachable battery base is inserted into the storage space, the electrode end is electrically connected between the power contact pin and the first power input end. The light-emitting diode illuminating lamp according to claim 25.   The light emitting diode illuminating lamp of claim 25, wherein the storage space is installed in an upper half of the lighting body.   The light-emitting diode illuminating lamp of claim 25, further comprising a lid engaged with an opening of the battery coupling means.   The light emitting diode illuminating lamp of claim 25, wherein the human body sensor is installed in a lower half of the light emitting diode illuminating tube.   The lighting body is a light-emitting diode bulb, and includes a base, a radiator and a light-transmitting cover in order from top to bottom, and the battery coupling means is installed in the radiator. The light emitting diode illumination lamp of description.   32. The light emitting diode illumination lamp of claim 31, wherein the power supply switching control circuit is installed in the radiator.   32. The light-emitting diode illuminating lamp of claim 31, wherein a plurality of radiating blade pieces are installed on a side wall of the radiator.   32. The light emitting diode illuminating lamp of claim 31, wherein the human body sensor is installed at a bottom of the translucent cover.   32. The light emitting diode illuminating lamp of claim 31, wherein the base electrode of the base is electrically connected to the second power source input end.   32. The light-emitting diode illuminating lamp according to claim 31, wherein a storage space is provided at a side of the radiator to store the battery coupling means.   The battery coupling means is the detachable battery base, and an engaging claw and a positioning tank are installed on the head and bottom of the battery coupling means, and an engaging portion and a positioning piece are installed on the head and bottom of the storage space. When each is installed and the detachable battery base is inserted into the storage space, the engaging claw of the detachable battery base is engaged with the engaging portion of the storage space, The light emitting diode illumination lamp according to claim 36, wherein the positioning piece is inserted into the detachable battery-based positioning tank.   When the battery coupling means is the detachable battery base, a power contact pin is installed, an electrode end is installed in the storage space, and the detachable battery base is inserted into the storage space, 37. The light emitting diode lamp according to claim 36, wherein the electrode end is electrically connected between the power contact pin and the first power input end.   37. The light emitting diode illumination lamp of claim 36, further comprising a lid engaged with the opening of the battery coupling means.   The at least one battery coupling means is the detachable battery base, the battery device has an annular shape, and after the battery device is installed on the detachable battery base, the detachable battery base is viewed from above. 32. The light-emitting diode illuminating lamp according to claim 31, wherein the light-emitting diode illuminating lamp is installed in an upper end portion of the radiator through the base downward.   At least one fitting part is installed at the lower end of the base, and when the removable battery base is installed in the upper end of the radiator, the upper end of the removable battery base is 41. The light emitting diode illumination lamp of claim 40, wherein the light emitting diode illumination lamp is fitted into the at least one fitting portion, and a lower end portion of the detachable battery base is in contact with an upper end portion of the radiator.   The battery coupling means is provided with a power contact pin, an electrode end is installed in the storage space, and when the detachable battery base is inserted into the storage space, the electrode end is connected to the power contact pin and the power contact pin. The light-emitting diode illuminating lamp according to claim 40, wherein the light-emitting diode illuminating lamp is electrically connected between one power supply input end.

Images