JP2000200046A5 - - Google Patents

Description

Next, how to assemble the positioning unit 10 having the above configuration will be described with reference to FIGS. 7 to 9. First, the rods 51a and 51b insert the through holes 43a and 43b. Then, screws 104a and 104b is b after inserting the head 51a and 51b through hole of and secured to the screw hole formed in recesses 41a and 41b. As a result, the lower positioning units 5a and 5b are fixed to the base 4. At this time, a part of the rods 51a and 51b protrudes from the lugs 42a and 42b. The protruding portions from the lugs 42a and 42b insert through holes of the conductor blocks 103a and 103b.

The connecting member 35b corresponds to a portion surrounded by a diagonal line that descends to the right in FIGS. 10 and 11. Coupling member 35b is a member having a substantially rectangular plate shape for connecting the frame 31 b and the top plate 36b. Further, as shown in FIG. 10, the connecting member 35b is arranged so as to be sandwiched between the chassis fixing members 32b and 33b. One end of the connecting member 35b is integrally connected to the lower end of the plate 311b of FIGS. 10 to 12, and the other end is integrally connected to one side of the top plate 36b. It should be noted here that the surface of the connecting member 35b is a part of the plane intersecting the xy plane, and forms a predetermined angle γ with the xy plane as shown in FIG. The range of the angle γ is defined in relation to the back cover 6 described later.
The top plate 36 corresponds to a portion surrounded by a diagonal line that descends to the left in FIG. As shown in FIGS. 10 to 12, the top plate 36 is a member integrally connected to the lower end of the connecting member 35b and has a substantially rectangular plate shape. Heat dissipation holes of various shapes are formed on the top plate 36, and each heat dissipation hole releases heat generated from the chassis 2.

Here, FIG. 18 is a diagram for explaining a method of attaching the back cover 6 to the chassis 2. When installing the back cover 6, a set of two space Sa 1 21a made of an insulating material is prepared. In the example of FIG. 18, the space Sa 1 21a has a disk-like shape, the through holes are formed in the center portion. One space Sa 1 21a is devoted to the front side of the top plate 64, the other spacer 121a is devoted to the back side of the top plate 64. More specifically, the positions of one and the other spacers 121a are aligned so that the through holes of the spacers 121a and the through holes 63a overlap. By this alignment, one guide hole for guiding the screw 122a is formed in the through hole of the pair of spacers 121a and the through hole 63a. After the screw 122a is inserted into the guide hole, the screw 122a is fixed to the screw hole of the second boss 27a. By the same procedure, the screw 122b~122d via two pair of space support 1 21B～121d, is secured to the second boss 27B～27d.

Here, the electrical relationship between the back cover 6 and the chassis 2 will be described with reference to FIG. FIG. 19 shows a vertical cross section of the back cover 6 attached to the chassis 2. Further, for convenience of the following description, FIG. 19 shows an x-axis, a y-axis, and a z-axis that are orthogonal to each other. Here, the y-axis is an axis parallel to the vertical direction. The z-x plane is a plane parallel to the horizontal plane. In FIG. 19, the back cover 6 and the chassis 2 are partially omitted due to space limitations.
In FIG. 19, one of the spacers 121a is interposed between the second boss 27a and the peripheral portion of the through hole 63a. Therefore, the periphery of the through hole 63a does not come into direct contact with the second boss 27a. Further, since the other side of the spacer 121a (see the black-painted portion) is interposed between the head of the screw 122a and the peripheral portion of the through hole 63a, the periphery of the through hole 63a does not come into direct contact with the screw 122a. Furthermore, the two pair of space support 1 21a so made of an insulating material, around the through-hole 63a (conductor), not conduct a second boss 27a (conductor), and through the screw 122a Also does not conduct with the second boss 27a. The periphery of the other through holes 63b to 63d also does not conduct with the second bosses 27b to 27d, and does not conduct with the second bosses 27b to 27d even through the screws 122b to 122d. Further, the back cover 6 is attached to the chassis 2 without contacting the chassis 2 even in the portions other than the through holes 63a to 63d described above. As a result, the back cover 6 is electrically insulated from the chassis 2.

Further, according to the above display device, the PDP 1 is attached to the surface 21 of the chassis 2 by the adhesive sheet 8. As a result, the PDP1 can be fixed to the chassis 2 while maintaining the insulation between the PDP1 and the chassis 2.
Further, a first boss 26 for attaching the circuit board 9 and a second boss 27a to 27d for attaching the back cover 6 are integrally formed on the chassis 2. Therefore, the mounting of the circuit board 9 and the back cover 6 is simplified.

Further, as is clear from the above, the base 4 supports the chassis 2 to which the PDP1 is attached so as to be self-supporting. Further, the back cover 6 and the cabinet 7 are attached to the brackets 3a to 3d, respectively. As a result, only the back cover 6 can be removed from the finished product, or only the cabinet 7 can be removed from the finished product. Thereby, for example, when cleaning the inside of the filter 7 2 , only the cabinet 7 needs to be removed, and when replacing the circuit board 9, only the back cover 6 needs to be removed. As described above, according to the present display device, the inside of the back cover 6 and the cabinet 7 can be easily accessed without removing both of them.