Information
-
Patent Grant
-
6650038
-
Patent Number
6,650,038
-
Date Filed
Monday, June 10, 200222 years ago
-
Date Issued
Tuesday, November 18, 200321 years ago
-
Inventors
-
-
Examiners
Agents
- Tripoli; Joseph S.
- Laks; Joseph J.
- Herrera; Carlos M.
-
CPC
-
US Classifications
Field of Search
US
- 313 402
- 313 403
- 313 404
- 313 407
-
International Classifications
-
Abstract
Cathode-ray tube (1) comprising a frame/mask assembly for selecting colors having a mask (8) and a frame (19), the mask being held under tension by being attached to ends of long sides (9) of the frame, the frame/mask assembly being suspended inside the tube using support means (10) which are able to increase the mechanical rigidity of the frame by support means having longitudinal dimples (40) which cause the long sides of the frame to come together during the high-temperature manufacturing phases.
Description
FIELD OF INVENTION
The invention relates to a color cathode-ray tube (CRT) and more particularly to the frame/mask device for selecting colors placed inside the glass envelope of the tube. The invention is applicable to any type of tube comprising a color selection mask and is more particularly suited to tubes whose mask is held under tension by the frame to which it is fastened.
BACKGROUND OF THE INVENTION
Conventional cathode-ray tubes comprise a color selection mask located at a precise distance from the inside of the glass front face of the tube, on which front face red, green and blue phosphor arrays are deposited. Color CRTs generally have three electron beams, each one corresponding to a particular primary color phosphor array. The mask makes it possible for each particular beam to illuminate only the phosphor of the corresponding color.
During operation of the tube, the color selection mask must be placed and held in a precise position inside the tube. The function of holding the mask is carried out by means of a generally rigid rectangular metal frame, to which the mask is welded. The frame/mask assembly is mounted in the front face of the tube by a suspension means which includes a spring having an aperture. The aperture is designed to engage with one of the metal pins included in the glass front face. Generally tubes manufactures have the support means either on the sides of the mask frame or at the corners of the frame.
The current trend in the CRT industry is toward increasingly flat front faces. To produce tubes, manufactures have designed mask having flatter contours. The meet the demand for flatter mask contours the some designers have designed uniaxial tension masks. Such structures are described, for example, in U.S. Pat. No. 5,111,107. To keep the mask flat, high tension must be applied. The high tension requirement has forced designers to construct relatively heavy frame structures which consumes much material. As such, there is a need in the industry to develop lighter structures that can also effective hold a mask under tension.
SUMMARY OF THE INVENTION
The invention is for a CRT that comprises a tension mask having light frame structure. The light frame structure is realized reinforcing means for the frame/mask system. The CRT according to the invention also includes a glass front face on which a phosphor screen is deposited, a color selection mask placed close to the screen, a frame to which the mask is attached and which holds the mask under tension in at least one direction, the frame being of substantially rectangular shape defined by a pair of opposed long side and a pair of opposed short sides. At least two opposed sides each comprise an edge in the form of a metal plate substantially parallel to the surface of the mask. The frame/mask assembly is held inside the front face by reinforcing means cooperating with pins inserted in the sidewalls of the front face. The CRT is further characterized by reinforcing means having a metal plate fastened to at least one of the sides, close to the corners of the frame, wherein the plates comprise a longitudinal dimple lying at least partially in the direction of tension of the mask.
BRIEF DESCRIPTION OF THE DRAWINGS
The invention will be better understood with the help of the description below and the following figures.
FIG. 1
shows a cathode-ray tube according to the invention seen partially exploded.
FIG. 2
shows a top view of the frame according to the invention.
FIG. 3
illustrates in partially exploded side view, a frame/mask according to the invention.
FIG. 4
shows in detail a frame/mask support according to the invention.
FIG. 5
illustrates a second embodiment of the invention.
FIG. 6
is a frame/mask assembly according to the state of the art, seen in perspective view.
DETAILED DESCRIPTION OF THE INVENTION
Conventional tensions masks
26
as seen in
FIG. 6
comprise two long sides
22
to which the mask is welded and U-shaped short sides
31
. The short sides must maintain the mask in tension during the tube manufacturing phases and during normal operation. In order to maintain this tension, the frame must have large fairly massive profiles, which leads to two major drawbacks:
(1) a large weight which is especially appreciable for tubes with a large screen size (i.e. tubes having a diagonal greater than 70 cm) and
(2) large consumption of material which considerably affects the overall cost of the tube particularly if the frame is manufactured from an expensive material such as Invar, which is used minimize the thermal expansion phenomena.
The CRT according to the present invention avoids the above-mentioned drawback while providing adequate tension to the mask. As illustrated in
FIG. 1
, a cathode-ray tube
1
according to the invention comprises a substantially flat panel
2
and a peripheral skirt
3
. The panel
2
is connected to the funnel
4
of the tube
1
by means of a sintered glass seal. The neck
5
of the tube
1
surrounds the electron gun
6
, whose generates electron beams to illuminate the phosphor screen
13
through the color selection mask
8
, which in this case is flat and held taut between the long sides
9
of the frame
19
. Metal supports for the frame/mask assembly hold this assembly inside the tube. The supports can include a support part
10
welded to the frame
19
and a spring
1
. The spring
11
has an aperture which fits onto a pin
12
, which is attached to the skirt
3
.
In the embodiment illustrated in
FIGS. 2
,
3
,
4
, the frame
19
of 16×9 format CRT comprises a pair of long sides
9
and a pair of short sides
7
. The long side
9
having a flat part
37
and short sides
7
having an other flat part
39
, wherein the flat parts
37
,
39
are substantially parallel to the surface of the mask which the frame
19
is designed to hold it under tension. The mask
8
is held under tension by welding on the ends
20
of the long sides
9
of the frame
19
.
The result is that the mechanical tension of the mask
8
is held by the short sides
7
which must therefore have sufficient rigidity.
It is known that during tube manufacturing that the frame/mask assembly undergoes heat treatment at temperatures of about 450° C. However, because of its low mass, the mask
8
behaves mechanically in a different manner to the frame
19
during manufacture processing. For example, after the oxidation step when the frame/mask assembly is brought back to room temperature, the mask
8
which has a very low thermal inertia with respect to the frame will cool faster than the frame
19
. Therefore, during the transient cooling phase of the frame
19
, the tension of the mask
8
will be much greater than when the two elements have reached the same temperature. Depending on the tension applied initially to the mask and on the type of material forming the mask
8
, the frame
19
may be taken beyond its elastic limit during these transient phases and a permanent deformation, making its subsequent use impossible, will follow. This increase under tension may also cause twisting of the frame depending on the distribution of the mechanical stresses, if these stresses are not distributed in a completely homogenous manner.
The required rigidity is therefore obtained at present by oversizing the sections of the sides of the frame
19
to obtain the tension that short sides
7
are designed to hold.
The study of stresses exerted on such a frame
19
, supporting a mask
8
put under tension, has made it possible to demonstrate that the highest mechanical stresses would be exerted in the regions close to the comers of the frame
19
.
According to the invention, it is possible to use a frame
19
which is especially light and have low-thickness profiles with respect to the state of the art frame
21
. The frame of the current inventions can be lighter and yet maintain mechanical rigidity by the addition of support parts
10
serving as reinforcement where necessary, which is to say along the short sides
10
closest to the corners of the frame
19
. These support parts
10
comprise a dimple
40
lying longitudinally in the direction of tension of the mask over a length covering the region of the frame
19
where calculations show that the highest mechanical stresses are exerted on the frame
19
during the high-temperature steps of the manufacturing. This dimple can be formed by stamping the reinforcing part (i.e., the would-be support part
10
) in its central region, thereby creating edges
41
,
42
which will come in contact with the surface of the frame
19
and act as a region for fastening, for example, by welding, the resultant support part
10
to the frame
10
. The dimple
40
considerably increases the rigidity of the support part
10
and makes it possible to decrease the thickness of the profile forming the sides of the frame
19
, thereby eliminating the need for the added materials that a comparable state of the art frame
21
would otherwise require in the absence of the support part
10
with the dimple
40
.
In the exemplary embodiment of
FIGS. 2
,
3
, and
4
, the frame
19
made on Invar and having a diagonal dimension of 76 cm would require a thickness of material of about 1.5 mm when the support parts
10
are placed close to the four corners of the frame
19
and has a component segment of length
14
lying on one of the surfaces of the flat part
37
of the frame
19
to which the component segment is fastened, for example, by welding. These support parts
10
can be made of Invar and have a thickness identical to that of the frame
19
. The component segment can each have a length
14
of about 6 cm and therefore cover about 25% of each of the short sides
7
.
For tubes with a large screen size, for example, with a diagonal dimension greater than 70 cm, it is advantageous to use support parts
10
′ as illustrated in FIG.
5
. Calculations in fact show that the mechanical stresses generated on the frame by a high temperature are also exerted close to the corners thereof for systems where the mask
8
is welded to the long sides
9
while under tension. The support part
10
is then L-shaped with a support enhancing dimple
50
lying in the direction of tension of the mask along a vertical length
14
y
and in the direction perpendicular to the direction of tension along a horizontal length
14
x.
Stress analysis of the frame during the high temperature steps shows that the maximum value of these stresses in the horizontal direction X is located closer to the comers of the frame than the maximum value of these stresses in the vertical direction Y. This results in a greater length of support enhancing dimple
50
in the vertical direction Y than in the horizontal direction X.
In addition, the invention has other technical advantages. The support parts
10
, as illustrated in
FIGS. 2
,
3
,
4
, and
5
may provide a support for the frame/mask assembly by ensuring that the support part
10
comprises a second part
15
which after folding around an intermediate region
16
will be in a direction essentially perpendicular to the surface of the mask
8
. Conventionally, it is possible to weld to the second part
15
to a spring
11
which has an aperture designed to surround a pin
12
attached to the skirt
3
of the panel
2
of the tube
1
. In this way, it is possible to decrease the number of metal parts used, since the support parts
10
participate in the mechanical reinforcement of the short sides
7
of the frame
19
and provide a support for the frame/mask assembly.
The support part
10
can be used to provide a solution to the heat transient problem when putting the tube
1
into service. For this, the support part
10
are made from a material having a thermal expansion coefficient different from that of the frame
19
such that these component collectively maintain the purity of the individual colors during normal operation. As described in U.S. Pat. No. 4,827,180, on illumination of the tube, there is a period of heating the frame/mask assembly which could cause discoloration of the image formed on the tube screen. This discoloration is due to the fact that during the heat transient, with the frame expanding gradually, for example, along the horizontal axis, it is necessary to give the mask
8
a slight movement in the direction of the screen so that the electron beams illuminate the corresponding phosphor lines. The temperature increases are much lower than those recorded (in this case they are of the order of a few tens of degrees with respect to the ambient temperature) during the steps of the tube manufacturing process, but enough to lead to a loss of color purity on the tube screen
13
. To alleviate this effect, the support parts
10
are chosen for example to be made of N42 iron/nickel alloy having a thermal expansion coefficient which is three times greater than that of Invar, when the frame
19
itself is made of Invar and the length
14
of the support part
10
is welded onto the short sides
7
of the frame
19
on the surface of the flat part
37
opposite the surface of the mask
8
. In this way, the frame/mask assembly is displaced with respect to the screen
13
during the heat transient and the curvature of the short sides
7
of the frame
19
is caused by the difference in expansion of the support parts
10
and the short sides
9
will come towards the mask
8
.
In another embodiment (not shown), the frame having long sides
9
with an L-shaped section, some edge substantially parallel to the surface of the mask, some other edge perpendicular to this surface and to which the mask is attached, wherein the frame/mask assembly is supported in the corners by some support means having of parts comprising a longitudinal dimple and placed close to the comers of the frame on the sides of the frame perpendicular to the surface of the mask
8
.
Claims
- 1. A color cathode-ray tube having a glass front face on which a phosphor screen is deposited, a color selection mask placed close to the screen, a frame to which the mask is attached and which holds the mask under tension in at least one direction, the frame being of substantially rectangular shape defined by a pair of opposed long sides and a pair of short sides which are also opposed, the frame/mask assembly being held inside the front face by support means comprising:at least two opposed sides of the frame comprise mechanical reinforcing means in the form of a metal plate fastened to the sides, close to the comers of the frame, the plates comprising a longitudinal dimple lying at least partially in the direction of tension of the mask.
- 2. The cathode-ray tube according to claim 1 further comprises the direction of tension of the mask being parallel to the short sides of the frame and the reinforcing means being placed on the short sides.
- 3. The cathode-ray tube according to claim 1 further comprising the support means being placed at the corners of the frame and being L-shaped.
- 4. The cathode-ray tube according to claim 3 further comprising the support means having two parts, the dimple lying along the two parts, and the vertical length of the dimple in the direction of tension of the mask being greater than the horizontal length of the dimple in the perpendicular direction.
- 5. The cathode-ray tube according to claim 4 further comprising:the support means each including a first part lying over a surface of the frame along a length, the support being fastened to the frame, by welding, and a second part lying in a direction substantially perpendicular to the surface of the mask.
- 6. The cathode-ray tube according to claim 1 further comprising the thermal expansion coefficients of the material forming the frame and the support means being different.
- 7. The cathode-ray tube according to claim 6 further comprising the thermal expansion coefficient of the support means being greater than that of the sides of the frame to which the support means is welded.
Priority Claims (1)
Number |
Date |
Country |
Kind |
MI01A1319 |
Jun 2001 |
IT |
|