WO2014126329A1

WO2014126329A1 - Side-lighting channel sign using insert-coupling type molding bodies

Info

Publication number: WO2014126329A1
Application number: PCT/KR2013/010382
Authority: WO
Inventors: 백정호
Original assignee: Baek Jung Ho
Priority date: 2013-02-18
Filing date: 2013-11-15
Publication date: 2014-08-21
Also published as: KR101309477B1

Abstract

The present invention relates to a channel sign with enhanced side lighting, and particularly, to a side-lighting channel sign using insert-coupling type molding bodies, which can be used for an advertisement and displays a side lighting in various effects and colors. The side-lighting channel sign using insert-coupling type molding bodies according to the present invention comprises: a front plate made of a synthetic resin material enabling the light to be emitted from an inner light source and to illuminate the front surface; a back plate, which is made of a metal material, to be fixed on a wall or a frame by fixing bolts; and both-side side plates formed between both ends of the front plate and the back plate to form a three-dimensional shape, wherein the side plates comprise: upper and lower metal plates made of metal sheets and having insert-coupling portions at one end to be respectively coupled in an inserted manner to both ends of the molding; and the molding bodies which are made of synthetic resin plates and of which the both ends are insertedly-coupled to each insert-coupling portion.

Description

Photometric channel sign using molded fittings

The present invention relates to a channel sign emphasizing side lighting, and in particular, to a metering channel sign using a molded body structure of the fitting combination method to be used for advertising and to produce a variety of effects and color metering.

Advertisement or lighting channel signs generally have a front panel consisting of a light-transmissive synthetic resin plate, a lighting color sheet, and a trim for supporting and combining the bottom and a light source, and the bottom plate following the expressed shape of the upper part and the three-dimensional character. It is composed of three-dimensional plate to determine the lower part, and the screw and tag, welding method is mainly used to fix the upper part and the lower part.

A light source, which is mainly used as a light emitting diode, is disposed inside the channel sign of this structure, and a switched-mode power supply (SMPS) for applying power to the light source is mounted outside.

Conventional channel sign is formed in the form of a letter, image or symbol, so the metal material is mainly used to reinforce the mechanical strength of the side portion, and the lighting effect is applied to the front plate and the rear portion through the light source. Has disadvantages that are difficult to expect.

In addition, the conventional photometric channel sign is mainly made of acrylic, resin plate material, etc., because the laser processing the letter form to combine with the metal frame portion, or due to the operation process by expensive materials and many processing processes in this process and Difficult problems such as production period and follow-up management will occur.

In order to solve this problem, the applicant has applied for and registered the side lighting structure of the channel sign as disclosed in the registration number 10-1053719 (side lighting structure of the channel sign).

However, the side lighting structure of the channel sign disclosed in the registration No. 10-1053719 can be said to be very encouraging in comparison with the conventional side in terms of the side luminous effect, simplified by extrusion molding of the light diffusion resin material and at a low manufacturing cost Although the production of the product was possible, the metal plate of the side plate was manufactured by extrusion processing with the synthetic resin containing the light diffusing material in the form of a plate, so that the finishing material was finished with the light diffusing resin material, thereby deteriorating the appearance quality.

In addition, in the case of a conventional character channel for advertising is to perform a frame molding for fixing the screen, at this time, the portion fixing the screen is mainly used a metal material and the metal frame portion has a problem that the illumination is obscured.

In addition, when acrylic is generally used, it is expressed using thick acrylic for deep color. However, this provides a high cost, such as processing costs, material costs, and can only be used by limited brands and consumers.

The problem to be solved by the present invention, by bringing the combination of the front and rear and the side to the molding structure having a light transmittance to produce a photometry more easily, and to adjust the thickness of the molding to more easily provide the weight of the side lighting We want to provide a channel sign.

In addition, by adopting a force-fitting method of the combination of the molding body and the metal body to provide ease of fastening, and to provide a metering channel sign that can adjust the height of the side freely.

In addition, by inserting the light diffusion resin material and the metal plate by fitting, it provides the ease of assembly, and can arbitrarily adjust the width of the metering light to enhance the side light transmission effect and improve the appearance quality of the finish material To provide a side lighting structure.

The photometric channel sign using the molded body of the fitting coupling method according to the present invention for solving the above problems is the front plate of the synthetic resin material that the light is emitted from the internal light source and the front light; A rear plate made of a metal material fixed to a wall or a frame by fixing bolts; Both side plates are formed between the front plate and the rear plate at both ends to form a three-dimensional shape, wherein the side plate is made of a metal plate and one end is fitted to each other by a fitting method coupled to both ends of the molding body The upper and lower metal plate member having a portion, and a synthetic resin plate material may be made of a molded body fitted to each of the fitting coupling portion at both ends.

Here, the fitting coupling portion of the upper and lower metal plate material may be formed as a recessed recessed recessed portion, the molding body may be formed with a convex fitting portion to be fitted with the recessed fitting portion.

Here, the concave fitting portion is made of a cross-section '' 'shape, the other end of the upper and lower metal plate member is formed with a protrusion projecting in the perpendicular direction of the upper and lower metal plate member to the inside of the channel sign, the molding The sieve may be formed by extruding the resin material to which the light diffusion resin material is added or by processing the resin plate material.

Here, the upper and lower metal plates and moldings may be manufactured in various widths, and the width of the side plates may be adjusted by selective coupling.

In this case, the inner width of the concave fitting portion becomes smaller toward the outside, and the outer width of the convex fitting portion is preferably implemented so as to become larger toward the outside so as to enable a forced fit.

According to the above-described configuration of the present invention, by bringing the front and the side and the side of the combination in the molding structure having a light transmittance, it is easy to produce the metering, and the thickness of the molding can be adjusted to reduce the weight of the side lighting In addition, by adopting a forced fitting method of the molding body and the metal body, it is easy to tighten, the length of the side can be adjusted freely, and the width of the metering can be arbitrarily adjusted to enhance the side light transmission effect. It becomes possible.

1 is a cross-sectional structure of a photometric channel sign using a molded body of the fitting coupling method according to the present invention.

2 is a cross-sectional structure of a molding of a photometric channel sign and a metal sheet according to the present invention.

3 is an exemplary view showing a side frame coupling of various lengths using the molding member and the metal plate of FIG.

4 is an example of a metering channel sign completed through FIG. 2.

5 is another example of the metering channel sign completed through FIG. 2.

6 is a cross-sectional structure of another embodiment of a molding of a photometric channel sign and a metal sheet according to the present invention.

Hereinafter, with reference to the accompanying drawings will be described the structure and effect of the metering channel sign using a molding body of the fitting coupling method according to the present invention.

The channel sign according to the present invention is commonly used as a zannel, which is a sign in the form of a letter, and refers to a display material manufactured by giving a three-dimensional surface to a base side with a galva steel plate or a stainless steel plate or a signboard, and includes a light source in the channel sign And the like can be applied.

As shown in FIG. 1, the photometric channel sign 10 using the molded body of the fitting coupling method according to the present invention includes an LED module 15 mounted on an inner rear side, made of a synthetic resin, and a side plate 12. 13) coupled to one end of the transparent material, both side plates (12, 13) made of a combination of an opaque metal material and photosynthetic resin, and the other ends of the side plates (12, 13) It comprises a back plate (14).

The LED module 15 may include a printed circuit board, at least one LED firmly attached to the printed circuit board, and wires connected to both sides of the printed circuit board to apply power.

The front plate 11 may mainly use a light transmissive synthetic resin, and the light transmissive synthetic resin may be applied to PC, acrylic, PET, and the like. The back plate 14 is made of a metal material unlike the front plate 11 is made of a structure that can only forward light.

The

side plates

12 and 13 are formed to have a predetermined width, and form side surfaces of the channel sign body according to the outer shape of letters or symbols according to the characteristics of the channel signs, and the metal plates 13b and 13c and the molding body. By the combination of the 13a, the metal plate 13b, 13c is used for side strength reinforcement, and the molding 13a is used for photometry.

The molding body 13a is made of acrylic resin, polycarbonate resin, or the like, and it may be preferable to include a light diffusing material for photometric expression.

The molding body 13a performs physical coupling with the metal plate materials 13b and 13c, and at the same time, scatters the light emitted from the LED module 15 or amplifies the reflected light to produce side light.

The molding body 13a may be formed by extruding a synthetic resin material, processing a synthetic resin plate, extruding a synthetic resin material containing a light diffusing resin material, or by processing a synthetic resin plate material containing a light diffusing resin material. .

Hereinafter, the side plate structure of the photometric channel sign of the present invention will be described in more detail with reference to FIGS. 2 and 3.

2 is equally applied to the left and right side plates 12 of the channel sign 10 of FIG. 1.

Reference numeral 121 denotes an upper metal plate of the side plate 12, and may be variously formed (F1, F2, F3) as shown in accordance with the length.

Reference numeral 122 denotes a molding of the side plate 12, and may be variously formed (S1, S2, S3) as shown in accordance with the width.

Reference numeral 123 denotes a bottom metal plate of the side plate 12, and may be variously formed (B1, B2) as shown in accordance with the width.

The upper metal plate 121 is a plate-shaped plate 121a and a protrusion 121b protruded in a vertical direction with the plate 121a at the upper side of the plate 121a to fix and engage the front plate 11. And a concave fitting portion 121c having a cross section formed at a lower end of the plate 121a in a 'c' shape and engaged with the molding body 122. Concave fitting portion 121c may be formed to have a different width so as to be forced fitting.

The molding body 122 includes a molding body 122a having a plate shape and convex

fitting parts

122b and 122c formed at both ends of the molding body 122a and fitted to the upper and

lower metal plates

121 and 123. .

The lower metal plate 123 is a plate 123a having a plate shape, and a protrusion 123b that is partially protruded in the vertical direction with the plate 123a at the lower side of the plate 123a to be fixed and coupled to the rear plate 14. And a concave fitting portion 123c formed in a cross-section at the top of the plate 123a in a 'c' shape to be coupled to the molding body 122. The concave fitting portion 123c may have a different width so as to be forced fitting.

The inner widths of the

concave fittings

121c and 123c of the upper and

lower metal plates

121 and 123 are implemented such that the width becomes larger as they go inward, that is, W1> W2, and the convex fittings 122b of the molding body 122 are formed. , When the width of 122c is implemented such that the width thereof becomes larger as it goes outward, that is, W4> W3, coupling by a forced fitting method may be easy and may not be easily separated in the combined state.

2 is only a preferred example of the present invention. Alternatively, the molding body 122 may be extruded or processed without forming a convex fitting portion by forming the concave fitting portion 123c as a fitting coupling portion. It may be fastened by fitting the fitting portion of the upper and lower metal plates (121, 123).

Figure 3 is an exemplary view showing the side frame coupling of the various widths using the molding member and the metal plate of FIG.

(A) shown in FIG. 3 is a side plate of the F1, F2, F3 of the upper metal plate member 121 on the basis of S3 and B1 of the lower metal plate member 123 of the molding body 122 of FIG. It shows a cross-sectional structure.

FIG. 2B illustrates a cross-sectional structure of side plates in which F1, F2, and F3 of the upper metal plate 121 are respectively coupled to S1 and B1 of the lower metal plate 123 of the molding body 122 of FIG. 2. .

(C) shows the cross-sectional structure of the side plate that combines F1, F2, F3 of the upper metal plate 121 with respect to S3 of the molding body 122 of FIG. 2 and B2 of the lower metal plate 123, respectively. .

That is, the width of the

side plates

12 and 13 can be freely adjusted according to the assembly of the upper metal plate 121, the molding body 122, and the lower metal plate 123 to actively change the size of the channel sign. It is possible to cope, and the implementation degree of the light emitted by the metering is different depending on the length (width) of the molding body 122, it is possible to express a variety of metering.

In general, advertising text type (channel type) lighting is mostly made of the same size channel letters due to the problems of convenience and production cost, regardless of design and size. This is not because of the need for necessity, but because of the convenience of work, which is a matter of production cost.

However, to achieve a more detailed and delicate design, various sizes of channels can be used to adjust the strength, weakness and impact to create more sophisticated advertisements.

The present invention, which solves the problems of the necessity and the cost increase, of course, can make a character channel having a wide variety of sizes, and because of the combined structure, the existing character channel can be more variously produced.

In expressing photometry, when the light-diffusion resin material is produced with a semi-transparent color, more diverse color expressions of photometry can be produced.

The side plate of FIGS. 2 and 3 may be implemented to implement various metering channel signs, and for example, the channel signs of FIGS. 1, 4, and 5 may be implemented.

In the case of FIG. 1, the front plate 11 is a photometric channel sign in which the epoxy plate 11a and the PC plate 11b are combined. In the case of FIG. 4, the front plate 21 is bonded to the PC plate and fixed. The metering channel sign of the structure in which the PC plate member is fixed by the cover molding 26. In the case of FIG. 5, the metering channel sign is implemented by using the acrylic plate fixing band 36 using the front plate 31 as the acrylic plate member. .

Various configurations of the front plate are attributable to the structure of the protrusion 121b of the upper metal plate 121, and the size of the channel sign is selected from the upper metal plate 121, the molding body 122, and the lower metal plate 123. The coupling of the

side plates

12 and 13 is possible, and the convex

fitting portions

122b and 122c of the upper and

lower metal plates

121 and 123 and the convex

fitting portions

122b and 122c of the molding body 122 are possible. It is possible to combine the forced fitting of.

The side plate shown in FIG. 6 is equally applied to the left and right side plate 12 of the channel sign 10 of FIG.

Reference numeral 421 shows the upper metal plate of the side plate 12, and may be variously formed as shown in FIG.

Reference numeral 422 denotes a molding of the side plate 12, and may be variously formed as shown in FIG. 2 according to the width.

Reference numeral 423 represents a bottom metal plate of the side plate 12, and may be variously formed as shown in FIG.

The upper metal plate 421 is a plate-shaped plate 421a, and a straight portion 421b and an oblique portion 421c having a cross section formed at a lower end of the plate 421a at a predetermined angle (A). ) Has a fitting coupling structure that is pressed by press working as shown in (B).

The molding body 422 is formed of a plate-shaped molding body 422a and convex

fitting portions

422b and 422c formed at both ends of the molding body 422a and coupled to the upper and

lower metal plates

421 and 423. , Its cross-sectional shape is'

Take the form.

The lower metal plate 423 has a plate-shaped plate 423a, and a straight portion 423b and an oblique portion 423c having a cross section formed in a '∠' shape on an upper end of the plate 423a at a predetermined angle ( In A), it has a fitting joint structure which is pressed by press working as in (B).

Here, the straight portion 421b of the upper metal plate 421, the straight portion 423b of the lower metal plate 423, and the molding body 422a of the molding body 422 respectively represent an inner surface (a left side of the drawing). ) Is in a straight line, and the straight portion 421b of the upper metal plate 421, the straight portion 423b of the lower metal plate 423, and the convex

fitting portions

422b and 422c of the molding body 422 contact each other. The portions may be formed with

tooth shapes

421d, 422d, and 423d, respectively, to increase the bonding strength.

The coupling structure of the upper and

lower metal plates

421 and 423 and the molding body 422 shown in FIG. 6 has an advantage in that the coupling structure can be thinner than the coupling structure shown in FIG. Application may be easy even when the size of the sine is small.

In fact, the bonding structure of FIG. 6 can reduce the thickness of the molded body by almost half and the bonding portion of the metal plate can be reduced by half, compared to the bonding structure of FIG. Channel signing is also easy.

As described above, the metering channel sign of the present invention can actively cope with the size standard, can be easily coupled by a forced fitting method, and can produce the metering while maintaining the mechanical strength according to the combination of the metal plate material and the light diffusing resin material. Since the degree of light metering may vary depending on the width of the molding, which is a light diffusion resin material, it can be optimized for the implementation of various types of channel signing.

Although the preferred embodiments of the present invention have been described above with reference to the accompanying drawings, the above-described technical configuration of the present invention may be embodied by those skilled in the art to which the present invention pertains without changing its technical spirit or essential features of the present invention. It will be appreciated that the present invention may be practiced as. Therefore, the above-described embodiments are to be understood as illustrative and not restrictive in all respects, and the scope of the present invention is indicated by the appended claims rather than the detailed description, and the meaning and scope of the claims and All changes or modifications derived from the equivalent concept should be interpreted as being included in the scope of the present invention.

Claims

A front plate of a synthetic resin material in which light is emitted from an internal light source and the light is fully emitted; A rear plate made of a metal material fixed to a wall or a frame by fixing bolts; It comprises a; both side plates are formed between the front plate and the rear plate both ends to form a three-dimensional shape,

The side plate is made of a top and bottom metal plate material, one end of each of the top and bottom metal plate material has a fitting coupling portion for fitting the molding in a fitting manner,

The molding body is made of a synthetic resin plate material is fitted to each of the fitting coupling portion at both ends,

The upper and lower metal plates and moldings can be manufactured in various lengths and can adjust the width of the side plate by selective coupling.
The method of claim 1,

The fitting coupling portion of the upper and lower metal plates is formed as a recessed recessed recess,

The molding body is a photometric channel sign using a molding body of the fitting coupling method, the convex fitting portion is formed to be fitted with the concave fitting portion.
The method of claim 2,

The inner width of the concave fitting portion becomes smaller toward the outside, and the outer width of the convex fitting portion becomes larger toward the outside.
The method of claim 1,

The fitting coupling portion is made of a cross-section '' ',

The other ends of the upper and lower metal plates are formed with protrusions projecting in the direction perpendicular to the upper and lower metal plates inside the channel sign.

The molding body is formed by extruding a resin material to which the light diffusion resin material is added or by processing a resin plate material, photometric channel sign using a molding body of the fitting method.
The method of claim 1,

The upper and lower metal plates and moldings can be manufactured in various lengths and can adjust the width of the side plate by selective coupling.
A front plate of a synthetic resin material in which light is emitted from an internal light source and the light is fully emitted; A rear plate made of a metal material fixed to a wall or a frame by fixing bolts; It comprises a; both side plates are formed between the front plate and the rear plate both ends to form a three-dimensional shape,

The side plate is made of a top and bottom metal plate material, one end of each of the top and bottom metal plate material has a fitting coupling portion for fitting the molding in a fitting manner,

The molding body is made of a synthetic resin plate material is fitted to each of the fitting coupling portion at both ends,

The fitting coupling portion of the upper and lower metal plates is a photometric channel sign using a molding body of the fitting coupling method of the '∠' shape having a straight portion and an oblique portion cross section.
The method of claim 6,

The cross section of the molding body is'
', And the inner line in the state inserted into the fitting coupling portion is positioned in a straight line with the straight portion, the photometric channel sign using the molding of the fitting coupling method.
The method according to claim 6 or 7,

The molding member is inserted into the fitting coupling portion is pressed by the oblique line by the pressing process, the molding body is fixed, the photometric channel sign using the molding body of the fitting coupling method.
The method according to claim 6 or 7,

Each of the portions where the molded body and the linear portion of the fitting portion contact each other is formed in a sawtooth shape, the photometric channel sign using the molding body of the fitting coupling method.