CN221122058U - Wireless lamp pole ceiling lamp structure - Google Patents

Abstract

The utility model relates to the technical field of ceiling lamps and discloses a wireless lamp post ceiling lamp structure, which comprises a hanging seat part, a hanging rod part and a lamp part, wherein the hanging seat part and the hanging rod part are electrically connected through a first conductive component; the suspender part is electrically connected with the lamp part through a second conductive component; the lamp part is provided with a plurality of lamp parts, and the adjacent lamp parts are electrically connected through a third conductive component; according to the wireless lamp post ceiling lamp structure, the hanging rod part and the hanging seat part are electrically connected through the first conductive component, and the hanging rod part and the lamp part are electrically connected through the second conductive component; the lamp part comprises a plurality of adjacent lamp parts which are electrically connected through a third conductive component; the installation process can be simplified, the dependence on electric wires can be reduced, and good power transmission efficiency can be maintained.

Description

Wireless lamp pole ceiling lamp structure

Technical Field

The utility model relates to the technical field of ceiling lamps, in particular to a wireless lamp post ceiling lamp structure.

Background

A pendant, commonly referred to as a lighting device suspended from a ceiling, is also known as a ceiling light, pendant light, or pendant light; the pendant lamp is usually composed of one or more bulbs, lamps and a pendant chain or sling, which can be used for providing illumination of the whole space and also can be used as a decorative element;

The following problems exist in the market at present: in the existing ceiling lamp structure, when a user installs, a plurality of lamps are required to be connected with a large number of cables, so that the ceiling lamp is poor in installation convenience and long in installation time;

The utility model aims to solve the technical problems that: the utility model provides a wireless lamp pole ceiling lamp structure improves the convenience of user when installing the ceiling lamp, reduces installation time.

Disclosure of utility model

The utility model aims to solve the technical problems that: the wireless lamp post ceiling lamp structure has the advantages that convenience of a user in installing the ceiling lamp is improved, and installation time is shortened; the suspension rod part is electrically connected with the suspension seat part through a first conductive component, and the suspension rod part is electrically connected with the lamp part through a second conductive component; the lamp part comprises a plurality of adjacent lamp parts which are electrically connected through a third conductive component; the installation process can be simplified, the dependence on electric wires can be reduced, and good power transmission efficiency can be maintained.

A ceiling lamp structure of a wireless lamp post comprises a hanging seat part, a hanging rod part and a lamp part, wherein the hanging seat part and the hanging rod part are electrically connected through a first conductive component; the suspender part is electrically connected with the lamp part through a second conductive component; the lamp part is provided with a plurality of lamp parts, and the adjacent lamp parts are electrically connected through a third conductive component.

Preferably, the boom portion includes a positive boom member; the first conductive component comprises a first positive metal piece in threaded connection with the hanging seat part; the first anode metal piece is internally provided with a first anode copper needle, and the upper end of the inside of the anode hanging rod piece is provided with a second anode copper needle; the first negative electrode copper needle is provided with a first negative electrode power line which is electrically connected with the first negative electrode copper needle; the upper end of the positive pole hanging rod piece is in threaded connection and then is in contact with the first positive pole metal piece so as to form electrical connection; and the first anode metal piece is in threaded connection with the anode suspender piece, so that the first cathode copper needle is in contact with the copper needle on the second cathode, and the first cathode copper needle is electrically connected with the copper needle on the second cathode.

Preferably, a first insulating pad is arranged between the first positive metal piece and the first negative copper needle for insulation; a second insulating pad is arranged between the anode hanging rod piece and the copper needle on the second cathode for insulation.

Preferably, the number of the positive pole hanging rod pieces is a plurality of; and the plurality of anode hanging rod pieces are electrically connected by arranging the first conductive component.

Preferably, the second conductive component comprises a second negative lower copper needle arranged at the lower end of the positive hanging rod piece and a second positive metal piece connected with the lamp part; the second positive metal piece is internally provided with a negative copper ring and a third negative copper needle connected with the negative copper ring; and the second negative electrode lower copper needle extends outwards to be in contact with the negative electrode copper ring so as to form electric connection, and the lower end of the positive electrode hanging rod piece is in threaded connection with the second positive electrode metal piece so as to be in contact with the second positive electrode metal piece so as to form electric connection.

Preferably, a third insulating pad is arranged between the negative copper ring and the second positive metal piece for insulation; the copper needle on the second negative electrode and the copper needle below the second negative electrode are electrically connected through a second negative electrode power line.

Preferably, the third conductive component comprises a positive electrode middle post; the positive electrode middle post is in threaded connection and then is in contact with the second positive electrode metal piece, so that electrical connection is formed; each lamp piece is provided with a negative metal piece which is electrically connected with the lamp piece; the inside of the negative electrode metal piece is provided with a positive electrode copper needle which is electrically connected with the lamp piece; a fourth insulating pad is arranged between the negative electrode metal piece and the positive electrode copper needle for insulation; each lamp piece is sleeved with the positive electrode center post through the negative electrode metal piece, so that the positive electrode copper needle is in contact with the positive electrode center post to form electric connection, the negative electrode metal pieces of the adjacent lamp pieces are in contact to form electric connection, and the negative electrode metal piece of the uppermost lamp piece is in contact with the third negative electrode copper needle to form electric connection.

Preferably, a limiting piece is formed at the bottom of the positive electrode middle column to limit the sleeving position of the lowest negative electrode metal piece; and a fifth insulating pad is arranged between the limiting piece and the negative electrode metal piece for insulation.

Compared with the prior art, the utility model has the beneficial effects that: according to the wireless lamp post ceiling lamp structure, the hanging rod part and the hanging seat part are electrically connected through the first conductive component, and the hanging rod part and the lamp part are electrically connected through the second conductive component; the lamp part comprises a plurality of adjacent lamp parts which are electrically connected through a third conductive component; the installation process can be simplified, the dependence on electric wires can be reduced, and good power transmission efficiency can be maintained.

Additional aspects and advantages of the utility model will be set forth in part in the description which follows, and in part will be obvious from the description, or may be learned by practice of the utility model.

Drawings

In order to more clearly illustrate the embodiments of the utility model or the technical solutions of the prior art, the drawings which are used in the description of the embodiments or the prior art will be briefly described, it being obvious that the drawings in the description below are only some embodiments of the utility model, and that other drawings can be obtained according to these drawings without inventive faculty for a person skilled in the art.

Fig. 1 is a schematic view of the overall structure of the present utility model.

Fig. 2 is a schematic view of the exploded construction of fig. 1 according to the present utility model.

Fig. 3 is an enlarged schematic view of the structure of fig. 2 at a in accordance with the present utility model.

Fig. 4 is an enlarged schematic view of the structure of fig. 2 at B according to the present utility model.

Fig. 5 is an enlarged schematic view of the structure of fig. 2 at C according to the present utility model.

Fig. 6 is a schematic diagram of the structure of fig. 2D according to the present utility model.

In the figure: a hanging seat part 1; a boom section 2; a lamp part 3; a first conductive component 4; a second conductive member 5; a lamp member 6; a third conductive member 7; a positive pole hanging rod piece 8; a first positive electrode metal piece 9; a first negative copper needle 10; a copper needle 11 on the second negative electrode; a positive electrode power supply line 12; a first negative electrode power supply line 13; a first insulating pad 14; a second insulating pad 15; a second negative lower copper needle 16; a second positive electrode metal piece 17; a negative copper ring 18; a third negative copper needle 19; a third insulating pad 20; a second negative electrode power supply line 21; a positive electrode center post 22; a negative electrode metal member 23; a positive copper needle 24; a fourth insulating pad 25; a limit piece 26; and a fifth insulating pad 27.

Detailed Description

The following description of the technical solutions in the embodiments of the present utility model will be clear and complete, and it is obvious that the described embodiments are only some embodiments of the present utility model, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

Referring to fig. 1 to 6, in an embodiment of the present utility model, a wireless lamp post ceiling lamp structure includes a ceiling portion 1, a boom portion 2, and a lamp portion 3, wherein the ceiling portion 1 and the boom portion 2 are electrically connected through a first conductive component 4; the suspender part 2 and the lamp part 3 are electrically connected through a second conductive component 5; the lamp part 3 is provided with a plurality of lamp parts 6, and the adjacent lamp parts 6 are electrically connected through a third conductive component 7.

Specifically, the hanging seat part 1 is a part connected with a ceiling for supporting the whole ceiling lamp structure; the hanging rod part 2 is an extension part of the ceiling lamp structure and is connected with the hanging seat part 1 and the lamp part 3; the boom part 2 and the boom part 1 are electrically connected through the first conductive component 4, so that power transmission is ensured; the lamp part 3 is an actual lamp device and comprises a plurality of lamp pieces 6; a second conductive component 5 is arranged between the suspender part 2 and the lamp part 3 and is used for electric connection and transmitting electric energy to the lamp; the lamp member 6 is a portion that emits light actually, and may be a bulb, an LED lamp, or the like; the lamp part 3 comprises a plurality of adjacent lamp parts 6, and the adjacent lamp parts are electrically connected through a third conductive component 7; the design of the structure enables the parts to be effectively and electrically connected, and the function of the wireless lamp post ceiling lamp is realized; the installation process can be simplified, the dependence on electric wires can be reduced, and good power transmission efficiency can be maintained.

Further, the boom portion 2 includes a positive boom member 8; the first conductive component 4 comprises a first positive metal piece 9 in threaded connection with the hanging seat part 1; a first negative copper needle 10 is arranged in the first positive metal piece 9, and a second negative copper needle 11 is arranged at the upper end of the inside of the positive hanging rod piece 8; the first negative electrode copper needle 10 is provided with a first negative electrode power line 13 which is electrically connected with the first negative electrode metal piece 9; the upper end of the positive pole hanging rod piece 8 is in threaded connection with the first positive pole metal piece 9 and then is in contact with the first positive pole metal piece to form electrical connection; and the first anode metal piece 9 is in threaded connection with the anode hanging rod piece 8, so that the first cathode copper needle 10 is in contact with the second cathode copper needle 11, and the first cathode copper needle 10 is electrically connected with the second cathode copper needle 11.

Specifically, the hanger bar portion 2 includes a positive electrode hanger bar 8, which is a conductive rod-like member used for positive electrode transmission of electric current; the first conductive component 4 comprises a first positive electrode metal piece 9, and the first positive electrode metal piece 9 is connected with the hanging seat part 1 through threads, so that good electrical connection is ensured; a copper needle connected with the first positive electrode metal piece 9 is arranged in the first positive electrode metal piece and is used for negative electrode transmission of current; the upper end of the inside of the positive pole hanging rod piece 8 is provided with a second copper needle 11 on the negative pole, and the second copper needle is also used for negative pole transmission of current; the positive electrode power line 12 is electrically connected with the first positive electrode metal piece 9, the first negative electrode power line 13 is electrically connected with the first negative electrode copper needle 10, and the positive electrode power line 12 and the first negative electrode power line 13 are used for supplying power, and are electrically connected to the plug, so that the plug is electrically connected with the alternating current socket; after the upper end of the positive pole hanging rod piece 8 is in threaded connection with the first positive pole metal piece 9, the upper end face of the positive pole hanging rod piece 8 is in contact with the lower end face of the first positive pole metal piece 9, so that electrical connection is ensured; after the first positive pole metal piece 9 is in threaded connection with the positive pole hanging rod piece 8, the first negative pole copper needle 10 is in contact with the second negative pole copper needle 11, so that electrical connection is formed.

Further, a first insulation pad 14 is arranged between the first positive electrode metal piece 9 and the first negative electrode copper needle 10 for insulation; a second insulating pad 15 is arranged between the anode hanging rod piece 8 and the copper needle 11 on the second cathode for insulation.

Specifically, a first insulating pad 14 is arranged between the first positive electrode metal piece 9 and the first negative electrode copper needle 10 for insulation, and the first insulating pad is used for preventing direct contact between the positive electrode and the negative electrode, so that current leakage is prevented, the risk of short circuit is reduced, and the stability and the safety of the whole circuit are improved; a second insulating pad 15 is arranged between the positive pole hanging rod piece 8 and the copper needle 11 on the second negative pole for insulation, and likewise, a second insulating pad 15 is used between the positive pole hanging rod piece 8 and the copper needle 11 on the second negative pole, which is helpful for isolating the positive pole and the negative pole and avoiding electrical faults or short circuits between the positive pole hanging rod piece 8 and the copper needle 11.

Further, the number of the positive pole hanging rod pieces 8 is a plurality; and the plurality of anode hanging rods 8 are electrically connected by arranging the first conductive component 4.

Specifically, the ceiling lamp structure includes a plurality of positive pole hanging rods 8, and the positive pole hanging rods 8 are electrically connected by arranging the first conductive component 4; and the whole height of ceiling lamp can be prolonged to a plurality of positive pole hanging rod pieces 8, selects the quantity of positive pole hanging rod pieces 8 according to the height of floor.

Further, the second conductive component 5 comprises a second negative lower copper needle 16 arranged at the lower end of the positive hanging rod piece 8 and a second positive metal piece 17 connected with the lamp part 3; the second positive electrode metal piece 17 is internally provided with a negative electrode copper ring 18, and is provided with a third negative electrode copper needle 19 connected with the negative electrode copper ring 18; and the second negative lower copper needle 16 extends outwards to be in contact with the negative copper ring 18 so as to form electrical connection, and the lower end of the positive hanging rod piece 8 is in threaded connection with the second positive metal piece 17 so as to be in contact with the second positive metal piece so as to form electrical connection.

Specifically, the second negative lower copper needle 16 is located at the lower end of the positive hanger bar 8 and is used as a negative transmission part of the second conductive component 5; the second positive electrode metal piece 17 is connected with the lamp part 3 and serves as a positive electrode transmission part of the second conductive component 5; the second positive metal piece 17 is internally provided with a negative copper ring 18 used for negative transmission; the third negative copper needle 19 is connected with the negative copper ring 18 to form electrical connection; the second negative lower copper needle 16 extends outwardly into contact with the negative copper ring 18, thereby forming an electrical connection; after the lower end of the positive pole hanging rod piece 8 is in threaded connection with the second positive pole metal piece 17, the lower end face of the positive pole hanging rod piece 8 is in contact with the upper end face of the second positive pole metal piece 17, and electric connection is ensured.

Further, a third insulating pad 20 is arranged between the negative copper ring 18 and the second positive metal piece 17 for insulation; the second negative electrode upper copper needle 11 and the second negative electrode lower copper needle 16 are electrically connected through a second negative electrode power line 21.

Specifically, a third insulating pad 20 is arranged between the negative copper ring 18 and the second positive metal piece 17 for insulation, and the function of the third insulating pad is to isolate the two parts and prevent direct contact between the two parts, so that current leakage is prevented, the risk of short circuit is reduced, and the safety of a circuit is ensured; the second negative electrode upper copper needle 11 and the second negative electrode lower copper needle 16 are electrically connected through a second negative electrode power line 21, so as to ensure normal current transmission and connection; the second negative power cord 21 is built in when the product leaves the factory, that is, the user does not need to assemble the product by himself, and only needs to install the product by means of threaded connection.

Further, the third conductive member 7 includes a positive electrode middle post 22; the positive electrode middle post 22 is in threaded connection with the second positive electrode metal piece 17 and then is in contact with the second positive electrode metal piece to form electrical connection; each lamp member 6 is provided with a negative electrode metal member 23 electrically connected with the lamp member; the cathode metal piece 23 is internally provided with a cathode copper needle 24 which is electrically connected with the lamp piece 6; and a fourth insulating pad 25 is arranged between the negative electrode metal piece 23 and the positive electrode copper needle 24 for insulation; each lamp member 6 is sleeved with the positive electrode center post 22 through the negative electrode metal member 23, so that the positive electrode copper needle 24 is in contact with the positive electrode center post 22 to form electrical connection, the negative electrode metal members 23 of the adjacent lamp members 6 are in contact to form electrical connection, and the negative electrode metal member 23 of the uppermost lamp member 6 is in contact with the third negative electrode copper needle 19 to form electrical connection; the negative electrode metal piece 23 and the positive electrode copper needle 24 are directly or indirectly electrically connected with the circuit board inside the lamp piece 6; the indirect connection is for example via a welded wire or a wire with a plug-in interface.

Specifically, the third conductive member 7 includes a positive electrode center post 22, which is a hollow columnar member as a positive electrode transmission portion; the positive electrode middle post 22 is in threaded connection and then contacts with the second positive electrode metal piece 17 to form electrical connection, and the positive electrode middle post 22 is connected with the second positive electrode metal piece 17 through threads, so that the electrical connection is ensured; each luminaire 6 comprises a negative pole metal piece 23 for negative pole transport; the inside of the negative electrode metal piece 23 is provided with a positive electrode copper needle 24 which is electrically connected with the lamp piece 6; a fourth insulating pad 25 is arranged between the negative electrode metal piece 23 and the positive electrode copper needle 24 for insulation, which is helpful for isolating the positive electrode from the negative electrode and preventing electrical short circuit between the positive electrode metal piece and the negative electrode; each lamp member 6 is sleeved with the positive electrode center post 22 through the negative electrode metal member 23 so as to ensure electrical connection; adjacent light fixture 6 are electrically connected by contact between their negative metal pieces 23;

The negative electrode metal piece 23 of the uppermost lamp piece 6 is in contact with the third negative electrode copper needle 19 to form electrical connection.

Further, a limiting piece 26 is formed at the bottom of the positive electrode middle post 22 to limit the sleeving position of the lowest negative electrode metal piece 23; and a fifth insulating pad 27 is arranged between the limiting piece 26 and the negative electrode metal piece 23 for insulation.

Specifically, the bottom of the positive electrode middle post 22 forms a limiting piece 26 for limiting or fixing the sleeving position of the lowest negative electrode metal piece 23; the design of the limiting piece 26 aims at ensuring the correct position of the lowest negative electrode metal piece 23 on the positive electrode center post 22 so as to realize good electrical connection; between the limiting tab 26 and the negative metal 23, a fifth insulating pad 27 is provided for isolating these two parts to avoid current leakage or accidental electrical short-circuits.

The transmission route of the positive electrode: the positive electrode power line 12, the first positive electrode metal piece 9, the positive electrode hanging rod piece 8, the second positive electrode metal piece 17, the positive electrode middle post 22, the positive electrode copper needle 24 and a circuit board inside the lamp;

The transmission route of the negative electrode: the lamp comprises a first negative electrode power line 13, a first negative electrode copper needle 10, a second negative electrode upper copper needle 11, a second negative electrode power line 21, a second negative electrode lower copper needle 16, a negative electrode copper ring 18, a third negative electrode copper needle 19, a negative electrode metal piece 23 and a circuit board in the lamp; thereby forming a closed circuit;

in order to ensure the electricity safety and good power supply, the side outer surfaces of the positive pole hanging rod piece 8, the positive pole metal piece and the negative pole metal piece can be sprayed with insulating spray, and only the positions of the top and the bottom which are contacted with the power supply are kept and are not sprayed; the inner layer of the metal piece is adopted for conducting electricity, and the outer layer is sprayed for insulating protection; the copper needle with the spring stretching performance can be adopted, so that contact avoidance is convenient; it should be noted that the term "wireless" mentioned above refers to that a user does not need to process a built-in cable in a subsequent installation process, and only needs to connect each rod piece and each metal piece through threads, but does not refer to that the interior is completely wireless.

It will be evident to those skilled in the art that the utility model is not limited to the details of the foregoing illustrative embodiments, and that the present utility model may be embodied in other specific forms without departing from the spirit or essential characteristics thereof. The present embodiments are, therefore, to be considered in all respects as illustrative and not restrictive, the scope of the utility model being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein.

Claims (8)

1. The wireless lamp post ceiling lamp structure comprises a hanging seat part, a hanging rod part and a lamp part, and is characterized in that the hanging seat part and the hanging rod part are electrically connected through a first conductive component; the suspender part is electrically connected with the lamp part through a second conductive component; the lamp part is provided with a plurality of lamp parts, and the adjacent lamp parts are electrically connected through a third conductive component.

2. The wireless light pole pendant lamp structure of claim 1, wherein the boom portion comprises an anode boom member; the first conductive component comprises a first positive metal piece in threaded connection with the hanging seat part; the first anode metal piece is internally provided with a first anode copper needle, and the upper end of the inside of the anode hanging rod piece is provided with a second anode copper needle; the first negative electrode copper needle is provided with a first negative electrode power line which is electrically connected with the first negative electrode copper needle; the upper end of the positive pole hanging rod piece is in threaded connection and then is in contact with the first positive pole metal piece so as to form electrical connection; and the first anode metal piece is in threaded connection with the anode suspender piece, so that the first cathode copper needle is in contact with the copper needle on the second cathode, and the first cathode copper needle is electrically connected with the copper needle on the second cathode.

3. The wireless lamp post ceiling lamp structure according to claim 2, wherein a first insulating pad is arranged between the first positive metal piece and the first negative copper pin for insulation; a second insulating pad is arranged between the anode hanging rod piece and the copper needle on the second cathode for insulation.

4. The wireless lamp post ceiling lamp structure according to claim 2, wherein the number of the anode hanging rod pieces is a plurality; and the plurality of anode hanging rod pieces are electrically connected by arranging the first conductive component.

5. The wireless lamp post ceiling lamp structure according to claim 2, wherein the second conductive component comprises a second negative lower copper needle arranged at the lower end of the positive hanging rod piece and a second positive metal piece connected with the lamp part; the second positive metal piece is internally provided with a negative copper ring and a third negative copper needle connected with the negative copper ring; and the second negative electrode lower copper needle extends outwards to be in contact with the negative electrode copper ring so as to form electric connection, and the lower end of the positive electrode hanging rod piece is in threaded connection with the second positive electrode metal piece so as to be in contact with the second positive electrode metal piece so as to form electric connection.

6. The wireless lamp post ceiling lamp structure according to claim 5, wherein a third insulating pad is arranged between the negative copper ring and the second positive metal piece for insulation; the copper needle on the second negative electrode and the copper needle below the second negative electrode are electrically connected through a second negative electrode power line.

7. The wireless light pole pendant lamp structure of claim 5, wherein the third conductive element comprises a positive center post; the positive electrode middle post is in threaded connection and then is in contact with the second positive electrode metal piece, so that electrical connection is formed; each lamp piece is provided with a negative metal piece which is electrically connected with the lamp piece; the inside of the negative electrode metal piece is provided with a positive electrode copper needle which is electrically connected with the lamp piece; a fourth insulating pad is arranged between the negative electrode metal piece and the positive electrode copper needle for insulation; each lamp piece is sleeved with the positive electrode center post through the negative electrode metal piece, so that the positive electrode copper needle is in contact with the positive electrode center post to form electric connection, the negative electrode metal pieces of the adjacent lamp pieces are in contact to form electric connection, and the negative electrode metal piece of the uppermost lamp piece is in contact with the third negative electrode copper needle to form electric connection.

8. The wireless lamp post ceiling lamp structure according to claim 7, wherein a limiting piece is formed at the bottom of the positive electrode center post to limit the sleeving position of the lowest negative electrode metal piece; and a fifth insulating pad is arranged between the limiting piece and the negative electrode metal piece for insulation.