CN218481748U - Gas column lamp - Google Patents

Abstract

The utility model provides a gas column lamp, including lamp main part, lamp strip and stationary blade, the inside inflation cavity that is equipped with of lamp main part sets up the inflation inlet with inflation cavity intercommunication in the lamp main part. The lamp body includes a base fabric and a soft fabric. The lamp strip sets up the internal surface at lamp main part, and the light emitting area of lamp strip is towards sheen cloth. The stationary blade is transparent setting, and the stationary blade pastes and covers the surface at the lamp strip to make the lamp strip fix the inside at the lamp main part. The utility model discloses among the gas column lamp, the lamp strip sets up the internal surface at the lamp main part, and the surface at the lamp strip is pasted to transparent stationary blade for the lamp strip can be fixed in the inside of lamp main part steadily. The lamp strip sets up in the inside of lamp main part, and the stationary blade can be strengthened the stability that lamp strip and lamp main part are connected, and the lamp main part can protect the lamp strip, avoids the damage of lamp strip to destroy, guarantees that the lamp strip can normal use, ensures that the better use of user is experienced.

Description

Gas column lamp

Technical Field

The utility model relates to a photography and video equipment technical field, in particular to gas column lamp.

Background

With the development of the information era, people have more and more requirements on photography and video shooting; in the existing shooting and videoing process, various soft light devices are often needed, and the gas column lamp is used as a new soft light device, and due to the arrangement of the air bag, light rays emitted by the light source are scattered through gas in the air bag and soft light cloth outside the air bag, so that a better soft light effect can be obtained; the air bag can be used only by inflating the air bag before use, and the operation is more convenient; therefore, by virtue of the characteristics of good soft light performance, portability, simple operation and the like, the popularization degree of the gas column lamp on the market is gradually improved.

The air bag in the existing air column lamp is made of flexible materials, and the light bar in the air column lamp is fixedly adhered to the outer side of the air bag and cannot be protected; consequently, when using or accomodating, the lamp strip all causes the damage because of the collision easily, leads to the unable normal work of gas column lamp, and its use that seriously influences the user is experienced.

SUMMERY OF THE UTILITY MODEL

The utility model discloses an in solving prior art's gas post lamp, the lamp strip collides the damage easily, leads to the unable normal work of gas post lamp, seriously influences the technical problem that user's use was experienced.

In order to solve the technical problem, the utility model provides a gas column lamp, which comprises a lamp main body, a lamp strip and a fixed piece, wherein a sealed inflation cavity is arranged inside the lamp main body, and an inflation inlet communicated with the inflation cavity is arranged on the lamp main body; the lamp body comprises a base cloth and a soft light cloth; the light bar is arranged on the inner surface of the base cloth, and the light emitting surface of the light bar faces the soft light cloth; the fixing piece is arranged in a transparent mode and is attached to the surface of the lamp strip, so that the lamp strip is fixed inside the lamp main body.

Optionally, the primary base cloth and the soft light cloth are connected and enclosed to form a cylindrical structure with two open ends and a hollow interior; the lamp main body further comprises two pieces of side cloth, and the two pieces of side cloth are arranged at openings at two ends of the cylindrical structure respectively to form an inflation cavity of the lamp main body in a surrounding mode.

Optionally, the light bars are provided in plurality, and the plurality of light bars are arranged on the inner surface of the primary backing at intervals.

Optionally, the gas column lamp further comprises a connecting plate, a first connecting wire and a second connecting wire, wherein the connecting plate is fixed on the inner wall of the lamp body; each lamp strip all through one first connecting wire with the connecting plate is connected, the one end of second connecting wire with the connecting plate is connected, the other end of second connecting wire is used for being connected with the power.

Optionally, the gas pillar lamp further comprises a power port, the power port is disposed on the side cloth, and an end of the second connecting line is connected to the power supply through the power port.

Optionally, the gas pillar lamp further comprises a flexible member disposed on a surface of the connection plate to enable the connection plate to be flexibly bent.

Optionally, the gas pillar lamp further comprises a magic tape and/or a magnet, the magic tape is arranged on the outer surface of the base cloth, and the magnet is fixed on the inner wall of the base cloth.

Optionally, the soft light cloth and the primary backing cloth are both of a grooved structure; the notch of the soft light cloth is opposite to the notch of the base cloth, and the periphery of the notch of the soft light cloth is connected with the periphery of the notch of the base cloth so as to form an inflation cavity of the lamp main body in an enclosing manner.

Optionally, the lamp body is a cylindrical structure, an annular structure, a spherical structure, or an ellipsoidal structure.

Optionally, the air pillar lamp further comprises an air tap, and the air tap is arranged at the air inflation opening to open or close the air inflation opening.

According to the above technical scheme, the beneficial effects of the utility model are that: the utility model discloses among the gas column lamp, the lamp strip sets up the internal surface at the lamp main part, and the surface at the lamp strip is pasted to transparent stationary blade for the lamp strip can be fixed in the inside of lamp main part steadily. The lamp strip sets up in the inside of lamp main part, and the stationary blade can be strengthened the stability that lamp strip and lamp main part are connected, and the lamp main part can protect the lamp strip, avoids the damage of lamp strip to destroy, guarantees that the lamp strip can normal use, ensures that the better use of user is experienced.

Drawings

Fig. 1 is a schematic structural diagram of a first embodiment of the gas pillar lamp of the present invention.

Fig. 2 is an exploded view of the gas pillar lamp shown in fig. 1.

Fig. 3 is a schematic view of the internal structure of the gas pillar lamp shown in fig. 1.

Fig. 4 is another schematic view of the internal structure of the gas pillar lamp shown in fig. 1.

Fig. 5 is a cross-sectional view of the gas pillar lamp shown in fig. 1.

Fig. 6 is an enlarged view of fig. 5 at a.

Fig. 7 is a schematic structural diagram of a second embodiment of the gas pillar lamp of the present invention.

Fig. 8 is an exploded view of the gas pillar lamp shown in fig. 7.

Fig. 9 is a schematic view of the internal structure of the gas pillar lamp shown in fig. 7.

Fig. 10 isbase:Sub>A cross-sectional view taken alongbase:Sub>A-base:Sub>A of fig. 9.

Fig. 11 is a schematic structural diagram of a third embodiment of the gas pillar lamp of the present invention.

Fig. 12 is an exploded view of the gas pillar lamp shown in fig. 11.

Fig. 13 is a schematic view of the internal structure of the gas pillar lamp shown in fig. 11.

Fig. 14 is a sectional view taken along the direction B-B of fig. 13.

The reference numerals are illustrated below: 100. a gas pillar lamp; 10. a lamp body; 11. an inflatable cavity; 12. an inflation inlet; 13. a primary backing; 14. soft light cloth; 15. a first side cloth; 16. a second side cloth; 171. a nut fixing seat; 172. a nut; 173. a port fixing seat; 174. a power port; 20. a light bar; 30. a fixing sheet; 40. a connecting plate; 50. double-sided adhesive tape; 61. a first connecting line; 62. a second connecting line; 70. a flexible member; 81. a gasket; 82. an air tap; 821. an air tap main body; 822. a knob plug; 83. a rubber pad; 84. magic tape; 85. a USB interface member; 86. a magnet; 87. assembling the sheet; 88. and (7) connecting the sheet.

Detailed Description

Exemplary embodiments that embody the features and advantages of the present invention will be described in detail in the following description. It is to be understood that the invention is capable of other and different embodiments, and its several details are capable of modification in various other respects, all without departing from the scope of the invention, and that the description and drawings are to be regarded as illustrative in nature, and not as restrictive.

In the description of the present application, it is to be understood that the indications of directions or positional relationships (such as up, down, left, right, front, rear, and the like) in the embodiments shown in the drawings are merely for convenience of description and simplicity of description, and do not indicate or imply that the devices or elements referred to must have a particular orientation, be constructed in a particular orientation, and be operated. These illustrations are appropriate when the elements are in the positions shown in the figures. If the description of the positions of these elements changes, the indication of these directions changes accordingly.

Furthermore, the terms "first", "second" and "first" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance or implicitly indicating the number of technical features indicated. Thus, features defined as "first", "second", may explicitly or implicitly include one or more of the described features. In the description of the present application, "a plurality" means two or more unless specifically limited otherwise.

A first embodiment of a gas pillar lamp.

Referring to fig. 1 to 6, an embodiment of the present disclosure provides a gas pillar lamp 100, wherein the gas pillar lamp 100 includes a lamp body 10, a lamp strip 20 and a fixing sheet 30. Wherein, the lamp body 10 is provided with an inflation cavity 11 inside, and the lamp body 10 is provided with an inflation inlet 12 communicated with the inflation cavity 11. The lamp body 10 includes a base cloth 13 and a soft cloth 14. The light bar 20 is arranged on the inner wall of the base fabric 13, and the light emitting surface of the light bar 20 faces the soft light fabric 14. The fixing plate 30 is transparent, and the fixing plate 30 is attached to the surface of the light bar 20, so that the light bar 20 is fixed inside the light body 10.

In this embodiment, the primary backing 13 is opaque. The soft light cloth 14 is in a light-transmitting state, and can make the transmitted light softer. The primary backing 13 and the soft cloth 14 are both strip-shaped, and the primary backing 13 and the soft cloth 14 can form a cylindrical structure with two open ends and hollow interior through ultrasonic pressing. The lamp body 10 further includes two pieces of side cloth, which are a first side cloth 15 and a second side cloth 16, respectively. First side cloth 15 and second side cloth 16 connect the both ends opening part at cylindrical structure through the mode of supersound pressfitting respectively to enclose and close and form inflatable cavity 11, should aerify cavity 11 and aerify and be cylindrical after filling.

In other examples of the embodiment, the base cloth 13 and the soft cloth 14, and the side cloths and the cylindrical structures enclosed by the base cloth 13 and the soft cloth 14 may be connected together by sewing or other methods.

In addition, in other examples of the embodiment, the base fabric 13 and the soft light fabric 14 may also be enclosed to form structures with other shapes, such as a square column structure, a triangular column structure, a pentagonal column structure, and the like. Accordingly, the shape of the first side cloth 15 and the second side cloth 16 may be square, triangular, pentagonal, etc.

With the lamp body 10 of the present embodiment, the base cloth 13, the soft cloth 14, and the side cloth are connected to form the gas filled cavity 11 of the lamp body 10. Air can be filled into the air filling cavity 11 of the lamp body 10 through the air filling port 12 to expand the lamp body 10 into a cylindrical structure. After the gas in the gas-filled cavity 11 of the lamp body 10 is exhausted, the lamp body 10 can be retracted to facilitate the storage of the gas pillar lamp 100.

The light bars 20 of the present embodiment are provided in plurality, and the plurality of light bars 20 are arranged on the inner wall of the base fabric 13 at intervals. The light bar 20 is a flexible light bar 20, and the length direction of the light bar 20 is consistent with the length direction of the base fabric 13. The plurality of light bars 20 may be uniformly spaced apart in the width direction of the base fabric 13, and both ends of the light bars 20 may be adhesively fixed to the inner surface of the base fabric 13 by a double-sided tape 50.

In this embodiment, the gas pillar light 100 further includes a connection plate 40. The attachment panel 40 is fixed to the inner surface of the primary backing 13 by a double-sided tape 50, and the attachment panel 40 is disposed at one end of the light strip 20. The gas pillar lamp 100 of the present embodiment further includes a first connection line 61 and a second connection line 62. First connecting line 61 is equipped with many, and many first connecting lines 61 are connected with a plurality of lamp strips 20 one-to-one, and each lamp strip 20 all is connected with connecting plate 40 through a first connecting line 61. One end of the second connection line 62 is connected to the connection board 40, and the other end of the second connection line 62 is connected to a power supply.

The gas pillar lamp 100 further includes a flexible member 70. The flexible member 70 may be made of a flexible material such as silicone or rubber, and the flexible member 70 is provided on the surface of the connection plate 40 to enhance the flexibility of the connection plate 40 so that the connection plate 40 can be flexibly bent. After the gas in the gas filled cavity 11 of the lamp body 10 is exhausted, when the gas pillar lamp 100 is stored, the flexible part 70 enables the bending part of the connecting plate 40 to be in arc transition, so that the connecting plate 40 is prevented from being folded in half, the connecting plate 40 is effectively prevented from being broken, and the structural stability of the connecting plate 40 is ensured.

In addition, in the present embodiment, the bonding pads on the light bar 20 overlap with the bonding pads on the connection board 40. When soldering tin, tin can permeate into and make to connect between the pad and stabilize and be difficult for the pine to take off, fracture and rosin joint, guarantee overall structure's joint strength.

The first side cloth 15 of the present embodiment is disposed near the connection plate 40, and the gas pillar light 100 further includes a power supply port 174 and a port fixing seat 173. The port fixing seat 173 is disposed on the inner surface of the first side cloth 15, and the power port 174 penetrates through the first side cloth 15 and is fixed in the port fixing seat 173. The end of the second connecting line 62 is connected to an external power source through a power port 174 to enable energization of the gas pillar lamp 100.

In addition, the first side cloth 15 is further provided with a nut fixing seat 171 and a nut 172. Wherein, the nut fixing seat 171 is arranged on the inner surface of the first side cloth 15, and the nut 172 is arranged on the first side cloth 15 in a penetrating manner and fixed in the nut fixing seat 171. The port fixing seat 173 and the nut fixing seat 171 are spaced apart, and the nut 172 and the power supply port 174 are spaced apart.

The gas pillar lamp 100 of this embodiment further includes a gasket 81, and the gasket 81 is disposed between the port fixing base 173, the nut fixing base 171, and the inner surface of the first side cloth 15 to protect and protect the first side cloth 15. The gasket 81 may be a flexible member 70 such as a thermoplastic polyurethane elastomer, rubber, silicone, or the like to enhance cushioning between the components.

Further, the fixing sheet 30 of the gas pillar lamp 100 is provided in a transparent manner, and the fixing sheet 30 may be made of thermoplastic urethane rubber. The fixing sheet 30 is attached to the surface of the light bars 20, and the fixing sheet 30 is pressed on the inner surface of the base fabric 13 by an ultrasonic pressing technology, so that two striped lines are formed on two sides of each light bar 20, each light bar 20 is fixed between the striped lines, and the light bars 20 are stably fixed on the inner surface of the base fabric 13.

In the present embodiment, the light bar 20 is disposed on the inner surface of the light body 10, and the transparent fixing sheet 30 is attached to the surface of the light bar 20, so that the light bar 20 can be stably fixed inside the light body 10. The lamp strip 20 sets up in the inside of lamp main part 10, and the stability that lamp strip 20 and lamp main part 10 are connected can be strengthened to stationary blade 30, and lamp main part 10 can protect lamp strip 20, avoids the damage of lamp strip 20 to destroy, guarantees that lamp strip 20 can normal use, ensures that the better use of user is experienced.

Further, the gas pillar light 100 of the present embodiment further includes a gas nozzle 82, and the gas nozzle 82 is disposed at the gas filling port 12 to open or close the gas filling port 12. The inflation port 12 is provided on the second side cloth 16.

In the present embodiment, the nozzle 82 includes a nozzle body 821 and a knob plug 822 provided on the nozzle body 821. The air cock main body 821 is hollow and has two open ends, the air cock main body 821 is inserted into the air charging port 12 of the second side cloth 16, and the interior of the air cock main body 821 is communicated with the air charging cavity 11 of the lamp main body 10. The knob plug 822 is provided at an outer end opening of the nozzle body 821 and is rotatable with respect to the nozzle body 821 to be inserted into the opening of the nozzle body 821 to close the charging port 12 or to be separated from the opening of the nozzle body 821 to open the charging port 12.

The gas filling port 12 can be opened through the knob plug 822, and different gases can be filled into the gas filling cavity 11 of the lamp body 10 through the gas filling port 12, so as to meet different lighting requirements of the gas pillar lamp 100 and expand the application range of the gas pillar lamp 100.

In this embodiment, the gas pillar light 100 further includes a rubber pad 83. The rubber pad 83 is provided on the inner surface of the second side cloth 16, and is circumferentially provided around the air nozzle main body 821. The rubber pad 83 may be made of a flexible material such as thermoplastic urethane rubber, silicone rubber, etc. to form a protection on the inner surface of the second side fabric 16.

In addition, the gas pillar light 100 of the present embodiment further includes a magic tape 84. The hook and loop fastener 84 is provided on the outer surface of the lamp body 10, and the hook and loop fastener 84 can be bonded to various external devices, such as a holder or a fixing member, to enhance the practicability of the gas pillar lamp 100.

When the gas pillar lamp 100 of the present embodiment is assembled, the magic tape 84 is ultrasonically adhered to the outer surface of the base cloth 13, then the base cloth 13 is unfolded, the position mark of the double-sided tape 50 is made on the inner surface of the base cloth 13, and then the base cloth 13 is flatly laid on a flat table. Double-sided adhesive tape 50 is attached to the mark, and light bar 20 and web 40 are adhesively secured to the inner surface of primary backing 13 by double-sided adhesive tape 50. Then, each light bar 20 is connected to the connecting plate 40 through a first connecting line 61, the plurality of light bars 20 are connected in parallel, and then one end of a second connecting line 62 is connected to the connecting plate 40.

After the light bars 20, the connecting plate 40, the first connecting line 61 and the second connecting line 62 are assembled, the fixing sheet 30 covers the light bars 20, and the fixing sheet 30 is pressed on the base fabric 13 through an ultrasonic pressing technology, so that two striped lines are formed on two sides of each light bar 20, and each light bar 20 is fixed between the striped lines. And ultrasonically pressing the base cloth 13 and the soft light cloth 14 to enclose the two to form a cylindrical structure. The power port 174 is ultrasonically pressed on the first side cloth 15, the air nozzle 82 is ultrasonically pressed on the air charging port 12 of the second side cloth 16, and then the other end of the second connecting wire 62 is led out to the power port 174 to be connected with the power port 174. And then, ultrasonically pressing the first side cloth 15 and the second side cloth 16 on openings at two ends of the cylindrical structure respectively, and trimming redundant cloth, thereby completing the manufacture and assembly of the gas pillar lamp 100.

A second embodiment of a gas pillar lamp.

Referring to fig. 7 to 10, the gas pillar lamp 100 of the second embodiment has substantially the same structure as the gas pillar lamp 100 of the first embodiment, and the gas pillar lamp 100 of the present embodiment also includes a lamp body 10, a lamp strip 20 and a fixing piece 30. Wherein, the lamp body 10 is provided with an inflation cavity 11 inside, and the lamp body 10 is provided with an inflation inlet 12 communicated with the inflation cavity 11. The lamp body 10 includes a base cloth 13 and a soft cloth 14. The light bar 20 is disposed on the inner wall of the light body 10, and the light emitting surface of the light bar 20 faces the soft cloth 14. The fixing sheet 30 is transparent, and the fixing sheet 30 is attached to the surface of the light bar 20, so that the light bar 20 is fixed inside the light body 10.

The gas pillar lamp 100 of the second embodiment differs from the gas pillar lamp 100 of the first embodiment in that: the soft light cloth 14 and the primary backing 13 of this embodiment are both of a channel structure. The notch of the soft light cloth 14 is opposite to the notch of the base cloth 13, and the periphery of the notch of the soft light cloth 14 is connected with the periphery of the notch of the base cloth 13 to enclose the gas filled cavity 11 of the lamp body 10.

In this embodiment, the cross-sections of the soft cloth 14 and the base cloth 13 are both semicircular, and the lamp body 10 formed by connecting the soft cloth 14 and the base cloth 13 is a cylindrical structure with a circular cross-section. The light bar 20 of the present embodiment is fixed on the inner surface of the base fabric 13, and the light bar 20 is a strip shape, and may be a flexible light bar 20.

The light bar 20 can be adhered and fixed on the inner surface of the base cloth 13 by the double-sided adhesive tape 50, the fixing sheet 30 is attached to the surface of the light bar 20, and the fixing sheet 30 is pressed on the surface of the base cloth 13 by the ultrasonic pressing technology, so that the light bar 20 is stably fixed inside the light main body 10. The anchor sheet 30 may be made of thermoplastic urethane rubber.

The gas pillar lamp 100 of the present embodiment further includes a USB interface 85, and two ends of the USB interface 85 are a terminal and an interface end. The USB interface 85 is inserted into the primary backing 13, the USB interface 85 is fixed on the inner surface of the primary backing 13 by a connecting sheet 88 made of rubber or silica gel, and the connecting sheet 88 is connected to the inner surface of the primary backing 13 by ultrasonic pressing.

The terminals of the USB interface 85 are disposed inside the light body 10, the terminals are connected to the light bar 20, and the interface end is disposed outside the light body 10. The interface terminal is used for connecting with an external power supply or an external power supply device to supply power to the gas pillar lamp 100.

The soft light cloth 14 of this embodiment is transparent, and the soft light cloth 14 is provided with an inflation inlet 12, and the inflation inlet 12 is disposed near one end of the soft light cloth 14. In the present embodiment, the gas nozzle 82 includes a gas nozzle main body 821 and a knob plug 822 provided on the gas nozzle main body 821. The air cock main body 821 is hollow and has two open ends, the air cock main body 821 is inserted into the air charging port 12 of the second side cloth 16, and the interior of the air cock main body 821 is communicated with the air charging cavity 11 of the lamp main body 10. The knob plug 822 is disposed at an outer end opening of the air nozzle main body 821, and can rotate relative to the air nozzle main body 821 to be inserted into the opening of the air nozzle main body 821 to close the inflation inlet 12 or separate from the opening of the air nozzle main body 821 to open the inflation inlet 12.

The gas filling port 12 can be opened through the knob plug 822, and different gases can be filled into the gas filling cavity 11 of the lamp body 10 through the gas filling port 12, so as to meet different lighting requirements of the gas pillar lamp 100 and expand the application range of the gas pillar lamp 100.

In addition, the gas pillar light 100 of the present embodiment further includes a magnet 86. The magnet 86 is provided on the inner surface of the lamp body 10, the magnet 86 is fixed to the inner surface of the lamp body 10 by a mount piece 87 made of rubber or silicone, and the mount piece 87 is provided in a transparent manner. Through the magnet 86, the gas column lamp 100 can be magnetically fixed to different external devices, such as a holding member or a fixing member, to enhance the practical performance of the gas column lamp 100.

When the air pillar light 100 of the present embodiment is assembled, the magnet 86 is fixed on the inner surface of the base fabric 13 through the mounting piece 87, and then the light bar 20 is adhered to the inner surface of the base fabric 13, such that the light bar 20 is disposed above the magnet 86. The USB interface piece 85 is connected to the light bar 20, the fixing piece 30 covers the light bar 20, and the fixing piece 30 is pressed on the base cloth 13 through an ultrasonic pressing technology. The air faucet 82 is installed at the inflation inlet 12 of the soft light cloth 14 by ultrasonic bonding technology, and then the periphery of the notch of the soft light cloth 14 is connected with the periphery of the notch of the primary backing 13 by ultrasonic bonding technology, thereby completing the manufacture of the air pillar lamp 100.

After the gas pillar lamp 100 is manufactured, in use, different gases can be filled into the gas filling cavity 11 through the gas nozzle 82, so that the lamp body 10 is expanded to form a long-strip column structure. Different gases can satisfy different lighting requirements of the gas column lamp 100, and the application range of the gas column lamp 100 is expanded. After the gas pillar lamp 100 is used, the gas in the gas filling cavity 11 can be discharged through the gas nozzle 82, and the gas pillar lamp 100 can be stored.

Besides the lamp body 10 with the elongated cylindrical structure shown in this embodiment, in other examples of this embodiment, the lamp body 10 may have a spherical or ellipsoidal structure after being inflated to meet the use requirements of different environments.

A third embodiment of a gas pillar lamp.

Referring to fig. 11 to 14, the gas pillar lamp 100 of the third embodiment has substantially the same structure as the gas pillar lamp 100 of the first embodiment, and the gas pillar lamp 100 of the present embodiment also includes a lamp body 10, a lamp strip 20 and a fixing piece 30. Wherein, the lamp body 10 is provided with an inflation cavity 11 inside, and the lamp body 10 is provided with an inflation inlet 12 communicated with the inflation cavity 11. The lamp body 10 includes a base cloth 13 and a soft cloth 14. The light bar 20 is arranged on the inner wall of the base fabric 13, and the light emitting surface of the light bar 20 faces the soft light fabric 14. The fixing plate 30 is transparent, and the fixing plate 30 is attached to the surface of the light bar 20, so that the light bar 20 is fixed inside the light body 10.

The gas pillar lamp 100 of the third embodiment differs from the gas pillar lamp 100 of the first embodiment in that: the soft cloth 14 and the primary backing cloth 13 of this embodiment are both of a channel-shaped configuration. The notch of the soft light cloth 14 is opposite to the notch of the base cloth 13, and the periphery of the notch of the soft light cloth 14 is connected with the periphery of the notch of the base cloth 13 to enclose the gas filled cavity 11 of the lamp main body 10.

In this embodiment, both the soft cloth 14 and the base cloth 13 are ring-shaped. The lamp body 10 formed by joining the soft light cloth 14 and the base cloth 13 has a ring-shaped configuration. The light bar 20 of the present embodiment is fixed in the inner surface of the primary backing 13, and the light bar 20 is in a ring shape, and may be a flexible light bar 20.

The light bar 20 can be adhered and fixed on the inner surface of the base cloth 13 by the double-sided adhesive tape 50, and the fixing sheet 30 is attached to the surface of the light bar 20. The fixing sheet 30 is in a ring shape, and the fixing sheet 30 is pressed on the surface of the base fabric 13 by an ultrasonic pressing technique, so that the light bar 20 is stably fixed inside the light body 10. The fixing piece 30 of the present embodiment may be made of thermoplastic urethane rubber.

The gas pillar light 100 of the present embodiment further includes a USB interface 85, and the two ends of the USB interface 85 are a terminal and an interface end, respectively. The USB interface 85 is inserted into the base cloth 13, the USB interface 85 is fixed on the inner surface of the base cloth 13 by a connecting sheet 88 made of rubber or silica gel, and the connecting sheet 88 is connected to the inner surface of the base cloth 13 by ultrasonic pressing.

The terminals of the USB interface 85 are disposed inside the light body 10, the terminals are connected to the light bar 20, and the interface end is disposed outside the light body 10. The interface end is used for connecting with an external power source or an external power device to realize the power supply of the gas pillar lamp 100.

The soft light cloth 14 of this embodiment is transparent, and the air charging port 12 is disposed on the soft light cloth 14, and the air charging port 12 is disposed near one end of the soft light cloth 14. In the present embodiment, the gas nozzle 82 includes a gas nozzle main body 821 and a knob plug 822 provided on the gas nozzle main body 821. The air cock main body 821 is hollow and has two open ends, the air cock main body 821 is inserted into the air charging port 12 of the second side cloth 16, and the interior of the air cock main body 821 is communicated with the air charging cavity 11 of the lamp main body 10. The knob plug 822 is disposed at an outer end opening of the air nozzle main body 821, and can rotate relative to the air nozzle main body 821 to be inserted into the opening of the air nozzle main body 821 to close the inflation inlet 12 or separate from the opening of the air nozzle main body 821 to open the inflation inlet 12.

The gas filling port 12 can be opened through the knob plug 822, and different gases can be filled into the gas filling cavity 11 of the lamp body 10 through the gas filling port 12, so as to meet different lighting requirements of the gas pillar lamp 100 and expand the application range of the gas pillar lamp 100.

In addition, the gas pillar light 100 of the present embodiment further includes a magnet 86. The magnet 86 is provided on the inner surface of the lamp body 10, the magnet 86 is fixed to the inner surface of the lamp body 10 by a mount piece 87 made of rubber or silicone, and the mount piece 87 is provided in a transparent manner. Through the magnet 86, the gas column lamp 100 can be magnetically fixed to different external devices, such as a holding member or a fixing member, to enhance the practical performance of the gas column lamp 100.

In the assembly of the air pillar light 100 of the present embodiment, the magnet 86 may be fixed on the inner surface of the base cloth 13 through the mounting piece 87, and then the light bar 20 is adhered to the inner surface of the base cloth 13, and the light bar 20 is disposed above the magnet 86. The USB interface piece 85 is connected to the light bar 20, the fixing piece 30 covers the light bar 20, and the fixing piece 30 is pressed on the base cloth 13 through an ultrasonic pressing technology. The air faucet 82 is installed at the inflation inlet 12 of the soft light cloth 14 by the ultrasonic press-fitting technique, and then the periphery of the notch of the soft light cloth 14 is connected with the periphery of the notch of the base cloth 13 by the ultrasonic press-fitting technique, thereby completing the manufacture of the air pillar lamp 100.

After the gas pillar lamp 100 is manufactured, in use, different gases may be filled into the gas filling cavity 11 through the gas nozzle 82 to expand the lamp main body 10 to form a ring structure. Different gases can meet different lighting requirements of the gas column lamp 100, and the application range of the gas column lamp 100 is expanded. After the gas pillar lamp 100 is used, the gas in the gas-filled cavity 11 can be discharged through the gas nozzle 82, and the gas pillar lamp 100 can be accommodated.

To the gas column lamp of this application, the lamp strip sets up the internal surface at lamp main part, and the surface at the lamp strip is pasted to transparent stationary blade for the lamp strip can be fixed stably in lamp main part's inside. The lamp strip sets up in the inside of lamp main part, and the stability that lamp strip and lamp main part are connected can be strengthened to the stationary blade, and the lamp main part can protect the lamp strip, avoids the damage of lamp strip to destroy, guarantees that the lamp strip can normal use, ensures that the better use of user is experienced.

While the present invention has been described with reference to several exemplary embodiments, it is understood that the terminology used is intended to be in the nature of words of description and illustration, rather than of limitation. As the present invention may be embodied in several forms without departing from the spirit or essential characteristics thereof, it should also be understood that the above-described embodiments are not limited by any of the details of the foregoing description, but rather should be construed broadly within its spirit and scope as defined in the appended claims, and therefore all changes and modifications that fall within the metes and bounds of the claims, or equivalence of such metes and bounds are therefore intended to be embraced by the appended claims.

Claims (10)

1. A gas column lamp, comprising:

the lamp comprises a lamp body, a lamp cover and a lamp cover, wherein a sealed inflation cavity is arranged inside the lamp body, and an inflation inlet communicated with the inflation cavity is formed in the lamp body; the lamp body comprises a base cloth and a soft light cloth;

the light bar is arranged on the inner surface of the primary base cloth, and the light emitting surface of the light bar faces the soft light cloth;

the fixing piece is arranged in a transparent mode and is attached to the surface of the lamp strip, so that the lamp strip is fixed inside the lamp main body.

2. The gas pillar lamp of claim 1, wherein the base cloth and the soft light cloth are connected to enclose a cylindrical structure with two open ends and a hollow interior; the lamp main body further comprises two pieces of side cloth, and the two pieces of side cloth are arranged at openings at two ends of the cylindrical structure respectively to form an inflation cavity of the lamp main body in a surrounding mode.

3. The gas pillar lamp of claim 2, wherein said light bar is provided in plurality, and a plurality of said light bars are spaced apart on the inner surface of said primary backing.

4. The gas pillar lamp according to claim 3, further comprising a connection plate, a first connection line, and a second connection line, the connection plate being fixed to an inner wall of the lamp body; each lamp strip is connected with the connecting plate through one first connecting line, one end of the second connecting line is connected with the connecting plate, and the other end of the second connecting line is used for being connected with a power supply.

5. The gas pillar lamp of claim 4, further comprising a power port provided on the side cloth, an end of the second connecting wire being connected to the power supply through the power port.

6. The gas pillar light of claim 4, further comprising a flexible member disposed on a surface of the connection plate to enable the connection plate to flexibly bend.

7. The gas pillar light of claim 1, further comprising a magic tape disposed on an outer surface of the base cloth and/or a magnet fixed on an inner wall of the base cloth.

8. The gas pillar lamp of claim 1, wherein said soft cloth and said primary backing cloth are both channel-shaped structures; the notch of the soft light cloth is opposite to the notch of the base cloth, and the periphery of the notch of the soft light cloth is connected with the periphery of the notch of the base cloth so as to form an inflation cavity of the lamp main body in an enclosing manner.

9. The gas pillar lamp of claim 8, wherein the lamp body has a cylindrical, annular, spherical, or ellipsoidal configuration.

10. The gas pillar light of claim 1, further comprising a gas nipple disposed at the gas filling port to open or close the gas filling port.

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