LAMP TUBE HOLDER AND LAMP TUBE

Abstract

 The present disclosure belongs to the field of illumination technologies, and in particular, relates to a lamp tube holder and a lamp tube, wherein the lamp tube holder comprises: a housing, made of an insulating material, and provided with an accommodating cavity arranged in form of an open cavity structure and two pin holes for communicating the accommodating cavity to the outside; two outer conductive pins, both being cylindrical structures, and inserted into one of the pin holes, respectively; a PCB board, placed in the accommodating cavity; and two inner conductive pins, both being electrically connected to the PCB board, the two inner conductive pins being respectively inserted into one of the outer conductive pins via one of the pin holes. Compared with the prior art, there is no need to prepare a plurality of connectors to realize electrical connection with the outer conductive pins, thus reducing the material types that need to be prepared, and thereby reducing the material cost and the material management cost.

Description

Technical Field

[0001] The present disclosure belongs to the field of illumination technologies, and in particular, relates to a lamp tube holder and a lamp tube.

Background Art

[0002] Two ends of a lamp tube holder of a lamp tube each have two copper pins connected to input power. The copper pins of some lamp tubes adopt a hollow structure, and the electrical connection between the copper pins and electrical components in the lamp tube is usually realized by a connector. The connector includes a connecting seat made of an insulating material and two connecting terminals both mounted on the connecting seat and made of a conductive material. Based on this structure, in the assembling process, firstly, the two connecting terminals are inserted into one copper pin, respectively, and secondly, the copper pins are riveted on the outside of the copper pins, so that the copper pins are in contact with the connecting terminals to achieve electrical connection. Such an electrical connection manner is convenient to assemble, but in the lamp tubes of different specifications, the two connecting terminals have different distances, which results in that connectors need to be customized for the lamp tubes of different specifications, while one connector cannot satisfy the lamp tubes of a plurality of specifications, then a plurality of connectors need to be customized to meet production requirements. Consequently, when a plurality of lamp tubes of different specifications are produced, a plurality of connectors need to be prepared to realize electrical connection with the copper pins, then there are many types of materials that need to be prepared, which increases the material cost and the material management cost.

Summary

[0003] The present disclosure aims at providing a lamp tube holder to overcome shortcomings of the above prior art, and solve the problem that when a plurality of lamp tubes of different specifications are produced, a plurality of connectors need to be prepared to realize electrical connection with the copper pins, then there are many types of materials that need to be prepared, which increases the material cost and the material management cost.

[0004] The present disclosure is realized in this way:
a lamp tube holder, including:

a housing, made of an insulating material, and provided with an accommodating cavity arranged in form of an open cavity structure and two pin holes for making the accommodating cavity communicate with outside;

two outer conductive pins, both being of cylindrical structure, and inserted into one of the pin holes, respectively;

a PCB board, placed in the accommodating cavity; and

two inner conductive pins, both being electrically connected to the PCB board, the two inner conductive pins being respectively inserted into one of the outer conductive pins via one of the pin holes.

[0005] Optionally, the two pin holes are provided in a direction parallel to an opening direction of the accommodating cavity.

[0006] Optionally, the housing is of a barrel-shape structure.

[0007] Optionally, the PCB board is provided with two pin holes on a board surface, and the two pin holes are configured to be in inserted fitting with one of the inner conductive pins, respectively,
wherein the inner conductive pin includes a power receiving rod and an insertion rod which are connected to each other and both arranged in a rod shape, an extending direction of the power receiving rod is parallel to the direction in which the pin holes are provided, and the power receiving rod is inserted into one of the outer conductive pins, and an extending direction of the insertion rod is parallel to the direction in which the pin holes are provided, and the insertion rod is inserted into one of the pin holes.

[0008] Optionally, the pin hole includes a first pin hole and a second pin hole arranged in sequence in a direction away from the accommodating cavity, and an aperture of the first pin hole is smaller than that of the second pin hole; and
the outer conductive pin includes an outer pin cylinder and a positioning ring sleeved on the outer pin cylinder and integrally provided with the outer pin cylinder, an outer cylinder diameter of the outer pin cylinder is smaller than or equal to the aperture of the first pin hole, and an outer ring diameter of the positioning ring is greater than the aperture of the first pin hole, and smaller than or equal to the aperture of the second pin hole.

[0009] Optionally, the PCB board is integrated with a driving circuit.

[0010] Optionally, the outer conductive pins are made of copper material.

[0011] Optionally, the inner conductive pins are made of steel material.

[0012] The present disclosure provides a lamp tube, including a tubular lamp shade, a light source board disposed in the tubular lamp shade, and the above lamp tube holder electrically connected to the light source board.

[0013] Optionally, the lamp tube further includes a heat dissipation strip, and the heat dissipation strip is located in the tubular lamp shade and configured to mount the light source board.

[0014] When the lamp tube holder is specifically assembled, firstly, the two inner conductive pins are electrically connected to the PCB board, and the two outer conductive pins are inserted into one pin hole, respectively, secondly, the two inner conductive pins and the PCB board are placed together in the accommodating cavity, and the two inner conductive pins are inserted into one outer conductive pin through one pin hole, respectively, and finally, the two outer conductive pins are riveted, so that the outer conductive pins and the inner conductive pins realize fixed connection in mechanical structure.

[0015] Based on this structural design, when a plurality of lamp tubes of different specifications are produced, only the inner conductive pin of the same type needs to be customized. In a specific assembling process, the inner conductive pins are assembled to the corresponding PCB board. Compared with the prior art, there is no need to prepare a plurality of connectors to realize electrical connection with the outer conductive pins, thus reducing the material types that need to be prepared, and thereby reducing the material cost and the material management cost.

Brief Description of Drawings

[0016] In order to more clearly illustrate technical solutions in implementations of the present disclosure, accompanying drawings which need to be used in the implementations will be introduced briefly below, and apparently, the accompanying drawings in the description below merely show some implementations of the present disclosure, and a person ordinarily skilled in the art still could obtain other drawings in light of these accompanying drawings, without using creative efforts.

FIG. 1 is an overall structural schematic view of a lamp tube holder provided in an implementation of the present disclosure;

FIG. 2 is a perspective exploded view of the lamp tube holder provided in an implementation of the present disclosure;

FIG. 3 is a perspective sectional view of a lamp tube holder provided in an implementation of the present disclosure;

FIG. 4 is an overall structural schematic view of a lamp tube provided in an implementation of the present disclosure; and

FIG. 5 is an exploded view of the lamp tube provided in an implementation of the present disclosure.

Illustration of reference signs:

[0017] 

Reference Sign	Name	Reference Sign	Name
100	housing
101	accommodating cavity	102	pin hole
200	outer conductive pin
210	outer pin cylinder	220	positioning ring
300	PCB board
400	inner conductive pin
410	power receiving rod	420	insertion rod
500	tubular lamp shade
600	light source board
700	heat dissipation strip

Detailed Description of Embodiments

[0018] In order to make clearer the objective, technical solutions and advantages of the present disclosure, the present disclosure is further described in detail below in combination with accompanying drawings and implementations. It should be understood that the specific implementations described herein are merely used to explain the present disclosure but not to limit the present disclosure.

[0019] An implementation of the present disclosure provides a lamp tube holder, adapted to a lamp tube.

[0020] Referring to FIG. 1 to FIG. 3, this lamp tube holder includes:

a housing 100, made of an insulating material, and provided with an accommodating cavity 101 arranged in form of an open cavity structure and two pin holes 102 for communicating the accommodating cavity 101 to the outside;

two outer conductive pins 200, both being of cylindrical structure, and respectively inserted into one pin hole 102;

a PCB board 300, placed in the accommodating cavity 101; and

two inner conductive pins 400, both being electrically connected to the PCB board 300, the two inner conductive pins 400 being inserted into one outer conductive pin 200 via one pin hole 102, respectively.

[0021] When the lamp tube holder is specifically assembled, firstly, the two inner conductive pins 400 are electrically connected to the PCB board 300, and the two outer conductive pins 200 are inserted into one pin hole 102, respectively, secondly, the two inner conductive pins 400 and the PCB board 300 are placed together in the accommodating cavity 101, and the two inner conductive pins 400 are inserted into one outer conductive pin 200 through one pin hole 102, respectively, and finally, the two outer conductive pins 200 are riveted, so that the outer conductive pins 200 and the inner conductive pins 400 realize fixed connection in mechanical structure.

[0022] Based on this structural design, when a plurality of lamp tubes of different specifications are produced, only the inner conductive pin 400 of the same type needs to be customized. In a specific assembling process, the inner conductive pins 400 are assembled to the corresponding PCB board 300. Compared with the prior art, there is no need to prepare a plurality of connectors to realize electrical connection with the outer conductive pins 200, thus reducing the material types that need to be prepared, and thereby reducing the material cost and the material management cost.

[0023] In an implementation of the present disclosure, the outer conductive pins 200 are made of copper material. Firstly, the copper material has high electrical conductivity, thus when being electrically connected to an external power supply device, the power receiving efficiency of lamp holder can be well ensured, and secondly, the copper material also has better processability, and is convenient for producing, processing and manufacturing.

[0024] In an implementation of the present disclosure, the inner conductive pins 400 are made of steel material. The steel material has better mechanical strength, thus, firstly, in the process of inserting the inner conductive pins 400 into the outer conductive pins 200, the inner conductive pins 400 are less likely to be deformed and bent, and secondly, when the outer conductive pins 200 are electrically connected to the external power supply device, the outer conductive pins 200 cannot be easily bent.

[0025] Referring to FIG. 2 and FIG. 3, in an implementation of the present disclosure, the two pin holes 102 are provided in a direction parallel to an opening direction of the accommodating cavity 101. In the process of placing the two inner conductive pins 400 and the PCB board 300 together in the accommodating cavity 101, the two inner conductive pins 400 and the PCB board 300 may be placed in the accommodating cavity 101 in an opposite direction following the opening direction of the accommodating cavity 101, and in the placing process, the two inner conductive pins 400 may be inserted into one outer conductive pin 200 via one pin hole 102, respectively, therefore, based on this structural design, the assembling efficiency of the lamp tube holder is improved.

[0026] In an implementation, the housing 100 is of a barrel-shape structure.

[0027] Referring to FIG. 2 and FIG. 3, in an implementation of the present disclosure, the PCB board 300 is provided with two pin holes 102 on a board surface, and the two pin holes 102 are configured to be in inserted fitting with one inner conductive pin 400, respectively; each inner conductive pin 400 includes a power receiving rod 410 and an insertion rod 420 which are connected to each other and both arranged in a rod shape, an extending direction of the power receiving rod 410 is parallel to the direction in which the pin holes 102 are provided, and is inserted into one outer conductive pin 200, and an extending direction of the insertion rod 420 is parallel to the direction in which the pin holes 102 are provided, and is inserted into one pin hole 102.

[0028] Based this structural design, in the process of placing the two inner conductive pins 400 and the PCB board 300 together in the accommodating cavity 101, as each inner conductive pin 400 is inserted into one pin hole 102, and the extending direction of the insertion rod 420 is parallel to the direction in which the pin holes 102 are provided, the PCB board 300 inserts the power receiving rods 410 into the outer conductive pins 200 by pushing the insertion rods 420 via a hole wall of each pin hole 102. In this process, the electrical connection relationship between the inner conductive pins 400 and the PCB board 300 will not be affected, thus avoiding the inner conductive pins 400 from loosening from the PCB board 300.

[0029] Referring to FIG. 2 and FIG. 3, in an implementation of the present disclosure, the pin hole 102 includes a first pin hole and a second pin hole arranged in sequence in a direction away from the accommodating cavity 101, and an aperture of the first pin hole is smaller than that of the second pin hole; the outer conductive pin 200 includes an outer pin cylinder 210 and a positioning ring 220 sleeved on the outer pin cylinder 210 and integrally provided with the outer pin cylinder 210, an outer cylinder diameter of the outer pin cylinder 210 is smaller than or equal to the aperture of the first pin hole, and an outer ring diameter of the positioning ring 220 is greater than the aperture of the first pin hole, and smaller than or equal to the aperture of the second pin hole.

[0030] Based on this structural design, in the process of inserting the two outer conductive pins 200 into one pin hole 102, respectively, the positioning of the positioning ring 220 can quickly insert and fit the outer conductive pins 200 into the pin hole 102, thus improving the assembling efficiency of assembling the outer conductive pins 200 to the housing 100, and thus improving the assembling efficiency of the lamp tube holder.

[0031] Specifically, the outer cylinder diameter of the outer pin cylinder 210 is equal to the aperture of the first pin hole, and an outer ring diameter of the positioning ring 220 is equal to the aperture of the second pin hole.

[0032] In an implementation of the present disclosure, the PCB board 300 is integrated with a driving circuit, and the driving circuit is configured to drive a light source board in the lamp tube.

[0033] Referring to FIG. 4 and FIG. 5, the present disclosure further provides a lamp tube including a tubular lamp shade 500, a light source board 600 disposed in the tubular lamp shade 500, and a lamp tube holder as described in the above electrically connected to the light source board 600.

[0034] When the lamp tube holder is specifically assembled, firstly, the two inner conductive pins 400 are electrically connected to the PCB board 300, and the two outer conductive pins 200 are inserted into one pin hole 102, respectively, secondly, the two inner conductive pins 400 and the PCB board 300 are placed together in the accommodating cavity 101, and the two inner conductive pins 400 are inserted into one outer conductive pin 200 through one pin hole 102, respectively, and finally, the two outer conductive pins 200 are riveted, so that the outer conductive pins 200 and the inner conductive pins 400 realize fixed connection in mechanical structure.

[0035] Based on this structural design, when a plurality of lamp tubes of different specifications are produced, only the inner conductive pin 400 of the same type needs to be customized. In a specific assembling process, the inner conductive pins 400 are assembled to the corresponding PCB board 300. Compared with the prior art, there is no need to prepare a plurality of connectors to realize electrical connection with the outer conductive pins 200, thus reducing the material types that need to be prepared, and thereby reducing the material cost and the material management cost.

[0036] Referring to FIG. 5, in an implementation of the present disclosure, the lamp tube further includes a heat dissipation strip 700, wherein the heat dissipation strip 700 is located in the tubular lamp shade 500 and configured to mount the light source board 600. The heat dissipation part directly contacts the light source board 600, and then heat generated by the light source board 600 can be directly transferred to the heat dissipation part.

[0037] Specifically, the heat dissipation part is made of an aluminum material.

[0038] The above-mentioned are merely for preferable implementations of the present disclosure, rather than limiting the present disclosure, any amendments, equivalent replacements or improvements and so on, made within the spirit and principle of the present disclosure, should be covered within the scope of protection of the present disclosure.

Claims

1. A lamp tube holder, characterized by comprising:

a housing (100), made of an insulating material, and provided with an accommodating cavity (101) arranged in form of an open cavity structure and two pin holes (102) for making the accommodating cavity (101) communicate with outside;

two outer conductive pins (200), both being of a cylindrical structure, and inserted into one of the pin holes (102), respectively;

a PCB board (300), placed in the accommodating cavity (101); and

two inner conductive pins (400), both being electrically connected to the PCB board (300), wherein the two inner conductive pins (400) are respectively inserted into one of the outer conductive pins (200) via one of the pin holes (102).

2. The lamp tube holder according to claim 1, wherein the two pin holes (102) are provided in a direction parallel to an opening direction of the accommodating cavity (101).

3. The lamp tube holder according to claim 2, wherein the housing (100) is of a barrel-shape structure.

4. The lamp tube holder according to claim 2, wherein the PCB board (300) is provided with the two pin holes (102) on a board surface, and the two pin holes (102) are configured to be in inserted fitting with one of the inner conductive pins (400), respectively; and
each of the inner conductive pins (400) comprises a power receiving rod (410) and an insertion rod (420), which are connected to each other and both arranged in a rod shape, an extending direction of the power receiving rod (410) is parallel to a direction in which the pin holes (102) are provided, and the power receiving rod (410) is inserted into one of the outer conductive pins (200), and an extending direction of the insertion rod (420) is parallel to the direction in which the pin holes (102) are provided, and the insertion rod (420) is inserted into one of the pin holes (102).

5. The lamp tube holder according to claim 1, wherein each of the pin holes (102) comprises a first pin hole and a second pin hole arranged in sequence in a direction away from the accommodating cavity (101), wherein an aperture of the first pin hole is smaller than an aperture of the second pin hole; and
each of the outer conductive pins (200) comprises an outer pin cylinder (210) and a positioning ring (220), which is sleeved on the outer pin cylinder (210) and integrally provided with the outer pin cylinder (210), an outer cylinder diameter of the outer pin cylinder (210) is smaller than or equal to the aperture of the first pin hole, and an outer ring diameter of the positioning ring (220) is greater than the aperture of the first pin hole, and smaller than or equal to the aperture of the second pin hole.

6. The lamp tube holder according to any one of claims 1 to 5, wherein the PCB board (300) is integrated with a driving circuit.

7. The lamp tube holder according to any one of claims 1 to 5, wherein the outer conductive pins (200) are made of copper material.

8. The lamp tube holder according to any one of claims 1 to 5, wherein the inner conductive pins (400) are made of steel material.

9. A lamp tube, characterized by comprising a tubular lamp shade (500), a light source board (600) disposed in the tubular lamp shade (500), and the lamp tube holder according to any one of claims 1 to 8 electrically connected to the light source board (600).

10. The lamp tube according to claim 9, characterized in that the lamp tube further comprises a heat dissipation strip (700), wherein the heat dissipation strip (700) is located in the tubular lamp shade (500) and configured to enable the light source board (600) to be mounted.

Drawing