Backlight module and display device

There is provided a backlight module and a display device. A light-emitting region of the backlight module has a size less than or equal to 7 inches. The backlight module includes a light source, a circuit board, a light guide plate and a target shielding light tape. The light source is disposed on a side surface of the light guide plate, a light-emitting side of the light source is next to the light guide plate, another side of the light source is welded with the circuit board being perpendicular to the light guide plate, and the target shielding light tape is located on a light-exiting surface of the light guide plate and covers the light source. The target shielding light tape is narrower, and the ratio of light-emitting region to the backlight module is larger, thereby improving the screen-to-body ratio of the portable terminal.

CROSS REFERENCE TO RELATED APPLICATIONS

This application claims priority to Chinese Patent Application No. 201711155913.0, filed on Nov. 20, 2017 and titled “BACKLIGHT MODULE AND DISPLAY DEVICE,” the entire contents of which are incorporated herein by reference.

TECHNICAL FIELD

The present disclosure relates to a backlight module and a display device.

BACKGROUND

With the development of science and technology, portable terminals (e.g., mobile phones) are used more and more extensively. In addition, people have increasingly demanded for the screen-to-body ratio of the portable terminals.

In the rated art, a portable terminal usually comprises a liquid crystal display panel and a backlight module that provides backlight for the liquid crystal display panel. Exemplarily, the backlight module comprises a light emitting diode (LED), a light guide plate, a flexible printed circuit (FPC) and a shielding light tape. The LED is disposed on a side surface of the light guide plate. A light emitting side of the LED is close to the light guide plate. The LED is welded with a FPC that is parallel to the light guide plate and has a large area, and the FPC is covered with a shielding light tape that shields the FPC.

Since the area of FPC in the related art is large, an area of shielding light tape that shields the FPC is also large. Moreover, the region in the backlight module, which is shielded by the shielding light tape, cannot emit light. Therefore, a ratio of light-emitting region to the backlight module is small, resulting in a small screen-to-body ratio of the portable terminal.

SUMMARY

The present disclosure provides a backlight module and a display device.

According to a first aspect of the present disclosure, there is provided a backlight module. A light-emitting region of the backlight module has a size less than or equal to 7 inches. The backlight module includes a light source, a circuit board, a light guide plate and a target shielding light tape; the light source is disposed on a side surface of the light guide plate, a light-emitting side of the light source is next to the light guide plate, another side of the light source is welded with the circuit board being perpendicular to the light guide plate, and the target shielding light tape is located on a light-exiting surface of the light guide plate and covers the light source.

According to a second aspect of the present disclosure, there is provided a display device. The display device includes the backlight module, where a light-emitting region of the backlight module has a size less than or equal to 7 inches; the light source is disposed on a side surface of the light guide plate, a light-emitting side of the light source is next to the light guide plate, another side of the light source is welded with the circuit board, and the circuit board is perpendicular to the light guide plate; the target shielding light tape is located on a light-exiting surface of the light guide plate and covers the light source.

DETAILED DESCRIPTION

The present disclosure will be described in further detail with reference to the enclosed drawings, to clearly present the principles, and advantages of the present disclosure. Apparently, the embodiments described are merely some embodiments of the present disclosure, and are not representative of all embodiments.

With the development of science and technology, portable terminals are more and more widely applied. A portable terminal usually includes a liquid crystal display panel and a backlight module configured to provide backlight for the liquid crystal display panel. Exemplarily, referring toFIG. 1, the backlight module in the related art may usually include a housing101, an LED102, an FPC103, a light guide plate104, an optical film105and a shielding light tape106. The LED102is disposed on a side surface of the light guide plate104. A light-emitting side of the LED102is next to the light guide plate104. The FPC103is parallel to the light guide plate104and is welded on the LED102. The shielding light tape106covers and shields the FPC103.

Since the FPC103usually has a relatively larger area, the shielding light tape106that shields the FPC103also has a relatively larger area. A region W1in the backlight module, which is shielded by the shielding light tape106, cannot emit light. Therefore, a ratio of light-emitting region to the backlight module is small, resulting in a small screen-to-body ratio of the portable terminal.

FIG. 2is a partial schematic view of a local structure of a backlight module provided by an example of the present disclosure. As shown inFIG. 2, the backlight module may include a light source201, a circuit board202, a light guide plate203, and a target lightproof adhesive tap204.

The light source201may be an LED, an organic light-emitting diode (OLED), or other light sources in addition to the LED and the OLED, which is not limited herein. The light source201is disposed on a side surface of the light guide plate203. A light-emitting side201A of the light source201is next to the light guide plate203. Another side of the light source201is welded with the circuit board202, and the circuit board202is perpendicular to the light guide plate203. For example, inFIG. 2, the light-emitting side201A is in direct contact with the light guide plate203and the backlight surface201B is welded with the circuit board202. The target shielding light tape204is located on a light-exiting surface of the light guide plate203and covers the light source201.

It should be noted that the light guide plate is usually a cuboid. Among the six surfaces of the light guide plate, there are two surfaces having large areas and disposed opposite to each other. These two surfaces are respectively called a light-exiting surface and a backlight surface of the light guide plate. Light that enters into the light guide plate exits from the light-exiting surface of the light guide plate. Four surfaces of the light guide plate, except for the light-exiting surface and the backlight surface, may be called side surfaces of the light guide plate. In the present disclosure, the light source may be disposed on the side surfaces of the light guide plate. As shown inFIG. 2, the light source is disposed on a side surface of the light guide plate. In practice, the light source may also be disposed on at least one side surface of the light guide plate, which is not limited in the embodiments of the present disclosure.

It should be noted that the backlight module provided in the present disclosure can be applied in a display device having a small size of display region, such as a mobile phone, a tablet, a bracelet and the like. A light-emitting region of the backlight module has a size less than or equal to 7 inches. For example, when the backlight module has a rectangular shape, the light-emitting region of the backlight module may have a width or length between 1 inch and 7 inches, between 2 inches and 7 inches, between 3 inches and 7 inches, between 2 inches and 6 inches, between 1 inch and 2 inches, or the like. For another example, the light-emitting region of the backlight module may also have a width or length less than 6.5 inches, 6 inches, 5.5 inches, 5 inches, 4.5 inches, 4 inches, 3.5 inches, 3 inches, 2.5 inches, 2 inches, 1.5 inches, 1 inch or 0.5 inch. The diameter may be in a range between 0.2 inch and 0.5 inch, between 0.2 inch and 7 inches, between 0.5 inch and 7 inches, or the like. When the backlight module has a rectangular shape, the light-emitting region of the backlight module may, have a diameter between 1 inch and 7 inches, between 2 inches and 7 inches, between 3 inches and 7 inches, between 2 inches and 6 inches, between 1 inch and 2 inches, or the like. Alternatively, the light-emitting region of the backlight module may also have a diameter less than 6.5 inches, 6 inches, 5.5 inches, 5 inches, 4.5 inches, 4 inches, 3.5 inches, 3 inches, 2.5 inches, 2 inches, 1.5 inches, 1 inch or 0.5 inch. The diameter may be in a range between 0.2 inch and 0.5 inch, between 0.2 inch and 7 inches, between 0.5 inch and 7 inches, or the like. In short, the backlight module is suitable for a display device having a size of display region less than or equal to 7 inches. If a light-emitting region falls into a certain circle, then the light-emitting region is located in the circle.

BecauseFIG. 2is a partial schematic view of the local structure of the backlight module, the light-emitting region W3of the backlight module illustrated inFIG. 2is only a part of the whole light-emitting region, rather than the whole light-emitting region of the whole backlight module.

To sum up, in the backlight module provided by the present disclosure, the circuit board is perpendicular to the light guide plate and located on a side of the light source away from the light guide plate. The target shielding light tape needs to shield the circuit board and the light source. Since the circuit board is perpendicular to the light guide plate in this example, the widths of the circuit board and the light source are relatively small. Thus, a region required to be shielded by the target shielding light tape in a display side of the backlight module is smaller, the target shielding light tape may be narrower, and the ratio of light-emitting region to the backlight module is larger, thereby improving the screen-to-body ratio of the portable terminal.

It should be noted that a direction of the width mentioned in the embodiments of the present disclosure is in a direction from the light guide plate to the light source.

In addition, referring toFIG. 1, when the FPC103is welded on the LED102in the related art, a large solder (not shown inFIG. 1) needs to be provided between the FTC103and the LED102, so as to guarantee an effective welding between the FPC103and the LED102. Hence, it is necessary to set a surface102A on the LED102, which is in contact with the solder pad (i.e., a surface next to the shielding light tape of the LED), to be a surface with a large area, and the width of the LED102is usually greater than 1 mm.

However, as shown inFIG. 2, the circuit board202is disposed on a side of the light source201away from the light guide plate. A surface on the circuit board202, which is in contact with a solder pad, is not a surface of the light source201next to the target shielding light tape204. Therefore, the surface of the light source201next to the target shielding light tape204may be adaptively set to be a surface with a small width, so that the width of the light source201is small. Exemplarily, when the light source201is the LED, its width may be in the range of 0.2 mm to 0.5 mm, thereby further reducing a region W2that needs to be shielded by the target shielding light tape on the display side of the backlight module, and improving the screen-to-body ratio of the portable terminal. For example, the width may be 0.4 mm in a device having a display area with a size of about 7 inches. The size may be the width, the length, or the diameter of the display area.

Furthermore, the circuit board202may be a thinner printed circuit board (also known as a thin printed circuit board). As a thickness of the thinner printed circuit board is less, thereby further reducing the region W2required to be shielded on the display side of the backlight module and improving the screen-to-body ratio of the portable terminal.

Referring toFIG. 2again, the backlight module may further include a heat-conducting housing205. The light source201, the circuit board202, and the light guide plate203are all located in the heat-conducting housing205. Exemplarily, the heat-conducting housing205may be made of a metal (such as aluminum, copper or iron). In practice, the heat-conducting housing205may also be made of other non-metallic heat conduction materials, such as carbon or graphite, which is not limited in the embodiments of the present disclosure. It should be noted that, when the backlight module is turned on to provide light, the light source201and the circuit board202may generate more heat. The generated heat may be conducted to the external environment through the heat-conducting housing205, thereby achieving an effective heat dissipation.

FIG. 3is a partial schematic view of a local structure of another backlight module provided by a schematic example of the present disclosure. As shown inFIG. 3and on a basis ofFIG. 2, the backlight module may further include a thermally conductive adhesive206, and the circuit board202may be connected to the heat-conducting housing205through the thermally, conductive adhesive206. Exemplarily, the thermally conductive adhesive206may be thermally conductive silica gel. Since the thermally conductive adhesive206has good thermally conductive performance, and the circuit board202is connected to the heat-conducting housing205through the thermally conductive adhesive206, the heat generated by the circuit board202and the light source201may be quickly and effectively conducted to the heat-conducting housing205, thereby improving the heat dissipation effect of the backlight module.

FIG. 4is a partial schematic view of a local structure of another backlight module provided by an example of the present disclosure. As shown inFIG. 4and on a basis ofFIG. 2, a receiving hole (not shown inFIG. 4) is provided on a side of the heat-conducting housing205next to the circuit board202. The circuit board202is located in the receiving hole and in contact with the heat-conducting housing205. When the backlight module includes a heat-conducting housing, the target shielding light tape also needs to shield the heat-conducting housing. When the circuit board202is located in the receiving hole of the heat-conducting housing205, the overall volume of the heat-conducting housing, the circuit board and the light source is small, thereby further reducing the width of the region shielded by the target shielding light tape in the backlight module and improving the screen-to-body ratio of the portable terminal.

Optionally, the receiving hole as shown inFIG. 4may be a through hole, and the circuit board202may be embedded into the receiving hole. That is, the circuit board202may have a same shape and size as the receiving hole, and may be in full contact with a surface, which is encircled to form the receiving hole, on the heat-conducting housing when embedded into the receiving hole, such that the contact area between the circuit board202and the heal-conducting housing205is large and the heat conduction efficiency is high. In addition, when the receiving hole A is the through hole, a side of the circuit board202away from the light source201is exposed. Hence, the circuit board202can simultaneously dissipate heat through the eat-conducting housing205and the through hole.

Exemplarily, the circuit board202may be a printed circuit board. Compared with an FPC made of a soft material, the printed circuit board has a higher hardness and a stronger impact resistance. Besides, it is easier to place the harder printed circuit board in the receiving hole.

Optionally, as shown inFIG. 3andFIG. 4, the backlight module may further include an auxiliary shielding light tape207, an optical film208, a first transparent isolation film209, a second transparent isolation film210and a reflector plate211.

The auxiliary shielding light tape207is located between the light guide plate203and the target shielding light tape204. A plane where a light-exiting surface of the light guide plate203is located is a target plane B. An orthographic projection region of the auxiliary shielding light tape207on the target plane B is located within an orthographic projection region of the target shielding light tape204on the target plane B. In the embodiments of the present disclosure, by means of adding the auxiliary shielding light tape207between the light guide plate203and the target shielding light tape204, the auxiliary shielding light tape207and the target shielding light tape204may effectively shield a non-light-emitting region of the backlight module, thereby improving the shading effect of the backlight module.

Optionally, the orthographic projection region of the auxiliary shielding light tape207on the target plane B may overlap with the light-exiting surface of the light guide plate203. That is, the auxiliary shielding light tape207and the target shielding light tape204may shield the edge of the light guide plate203.

Referring toFIG. 3andFIG. 4again, an edge of the heat-conducting housing205is provided with a bending portion2051that bends toward the inside of heat-conducting housing205, and the bending portion2051includes a first platy structure2051A, a second platy structure2051B, a third platy structure20510and a fourth platy structure2051D that are connected in sequence. The first platy structure2051A is perpendicular to the light guide plate203and provided with a receiving hole. The second platy structure2051B and the fourth platy structure2051D are parallel to the target plant B. The fourth platy structure2051D is disposed next to the light guide plate203.

The auxiliary shielding light tape207and the first isolation film209are superimposed on the light guide plate203. The auxiliary shielding light tape207is next to the light source201. The fourth platy structure2051D is superimposed on an end of the auxiliary shielding light tape207next to the light source201. The second isolation film210is superimposed on the end of the auxiliary shielding light tape207away from the light source201and on the first isolation film209. The optical film208is superimposed on the second isolation film210. The target shielding light tape204is superimposed on the second platy structure2051B and the optical film208.

Referring toFIG. 3andFIG. 4again, the reflector plate211may be disposed on a side of the light guide plate203next to the heat-conducting housing205. A plane where a light-exiting surface of the light guide plate is located is a target plane B. The light-exiting surface is located in an orthographic projection region of the reflector plate on the target plane B, and there is an overlapping region between an orthographic projection region of the light source201on the target plane B and an orthographic projection region of the reflector plate on the target plane B. That is, the reflector plate211may shield the whole reflector plate203and a light-emitting side of the light source201, so as to prevent light emitted by the light source201to be exited from the backlight side of the light guide plate203and prevent the backlight module from light leakage.

Referring toFIG. 3andFIG. 4again, the backlight module may further include a back shielding light tape212disposed on a side of the heat-conducting housing205away from the light guide plate203. Orthographic projection regions of the light guide plate203and the light source201on the target plane B are located within an orthographic projection region of the back shielding light tape212on the target plane B. That is, the back shielding light tape212may shield the whole light guide plate203and the light source201, thereby further prevent the light emitted by the light source201to be exited from the backlight side of the light guide plate203and prevent the backlight module from light leakage.

Optionally, the back shielding light tape212may shield the whole circuit board202(as shown inFIG. 3) or part of the circuit board202(as shown inFIG. 4).

To sum up, in the backlight module provided by the present disclosure, the circuit board is perpendicular to the light guide plate and located on a side of the light source away from the light guide plate. The target shielding light tape needs to shield the circuit board and the light source. Besides, since the circuit board is perpendicular to the light guide plate at this moment, both the widths of the circuit board and the light source are small. Therefore, a region required to be shielded by the target shielding light tape in a display side of the backlight module is smaller, the target shielding light tape is narrower, and the ratio of light-emitting region to the backlight module is larger, thereby improving the screen-to-body ratio of the portable terminal.

An example of the present disclosure provides a display device which may include a backlight module shown in any one ofFIGS. 2 to 4.

The display device may further include a liquid crystal display panel with a size of a display region less than or equal to 7 inches. The backlight module is disposed on a light incident side of the liquid crystal display panel and configured to provide backlight for the liquid crystal display panel.

Exemplarily, the display device may be products or components having a display function, for example, a liquid crystal display device, a mobile phone, a tablet a display, a digital photo frame, a navigator, or the like.

Other embodiments of the present disclosure may be available to those skilled in the art upon consideration of the specification and practice of the invention disclosed herein. The present application is intended to cover any variations, uses, or adaptations of the present disclosure following general principles of the present disclosure and include the common general knowledge or conventional technical means in the art without departing from the present disclosure. The specification and examples are merely shown as illustrative, and the scope and spirit of the disclosure are indicated by the following claims.

The technical solutions provided by the present disclosure may include the following beneficial effects: in the backlight module provided by the present disclosure, the circuit board is perpendicular to the light guide plate and located on the side of the light source away from the light guide plate. The target shielding light tape needs to shield the circuit board and the light source. Since the circuit board is perpendicular to the light guide plate at this moment, the widths of the circuit board and the light source are both small. Therefore, a region required to be shielded by the target shielding light tape in a display side of the backlight module is smaller, the target shielding light tape is narrower, and the ratio of light-emitting region to the backlight module is larger, thereby improving the screen-to-body ratio of the portable terminal.

It should be understood that, this disclosure is not limited to the precise constructions described above and shown in the enclosed drawings, and various modifications and changes may be made without departing from the scope of the present disclosure which is limited only by the appended claims.