KR200213200Y1 - Color spring tube corner spring - Google Patents

Abstract

The present invention discloses an improved corner spring used for frame support in a color brown tube.

Corner spring has the advantage of not needing a separate bimetal and do not involve rotation or twisting of the frame when compensating for doming, but there was a problem of difficulty in disassembling and coupling.

In the present invention, a rigid reducing hole is formed at the boundary between the neck and the head of the holder plate so that the corner spring can be disassembled and combined with a small force.

Description

Color spring tube corner spring

1 is a cross-sectional view of a color CRT showing the configuration and function of a shadow mask.

2 is a perspective view showing the configuration of a corner spring.

3 is a cross-sectional view showing the action of the corner spring.

Figure 4 is a perspective view showing the configuration of the corner spring according to the present invention.

5 (a) and 5 (b) are top plan views of a head showing other embodiments of the present invention.

* Explanation of symbols for main parts of the drawings

1: corner spring 2: holder plate

21: head 22: neck

24: holding hole 3: base plate

4: rigid reducing hole 4a, 4b: semicircular hole

4c: round hole

The present invention relates to a color CRT, and more particularly to a corner spring for supporting a mask-frame to a panel.

The CRT is a device for displaying an image by deflecting an electron beam emitted from an electron gun and selectively emitting a fluorescent surface. The color CRT forms a fluorescent surface by arranging R, G and B phosphors in a predetermined pattern, and selects the deflected electron beam through color selection means to emit phosphors of a predetermined color to implement a color image.

The most widely used as such a color screening means is a shadow mask (M) as shown in Figure 1, the shadow mask (M) is a thin metal sheet in the aperture (aperture) or slit (slit) in a number of colors Since it is a very fragile structure that forms a sorting hole, it is generally coupled to the frame F to form an assembly, and the frame F is a skirt of the panel P through a holder spring H. ) It is coupled to the stud pin (S) installed in the inner circumference.

The holder spring H is bonded onto a bimetal for doming compensation and attached to three or four sides of the frame F. As a result, there is no problem of rotating or twisting the frame F. In the case of a large CRT, it is not suitable for use.

Accordingly, in the large brown tube, the corner spring 1 'as shown in FIG. 2 is mainly used. The Y-shaped yoke forms the holder plate 2 and the base plate 3 which are each bent in two stages. The base plate 3 is attached to the corner of the frame F, and the holder hole 24 formed in the head 21 of the holder plate 2 is also a corner of the panel P. It is configured to couple to the stud pin (S) installed in.

This action of the corner spring 1 ′ is shown in FIG. 3, when heat is transferred through the frame F when the shadow mask M is heated by the collision of the electron beam B. FIG. The expansion is performed in the form of a dotted line to compensate for the domming by advancing the frame F to the fluorescent surface side of the panel P.

In other words, the corner spring (1´) compensates for doming by its own thermal expansion deformation without a separate bimetal, so it does not generate rotational force or cause distortion in the frame (F). This is spreading.

Since the shadow mask (M) is not only used as a color screening means but also as an exposure mask for forming a fluorescent surface, the frame (F) is used at least four times during the CRT manufacturing process (black matrix, R, G, and B phosphors). The disassembly and coupling must be repeated in panel (P) once for each.

By the way, the corner spring 1´ has a shorter neck 22 between the joint 23 and the head 21 than the general holder spring H, so that the operator disassembles it on the stud pin 5 only with a finger force. It is very difficult to combine.

This problem leads to the irrationality of the field worker to avoid this, even though the corner spring (1 ') has various functional advantages.

As a way of solving this problem, a method of extending the length of the neck 22 may be considered. However, since the corner spring 1´ should be installed in a limited space of the corner of the frame F, the length of the neck 22 is limited, and thus the solution is adopted. It can't be.

In order to solve the workability problem of the corner spring (1´), the present inventors examined the working principle in detail.

As a result, it was found that the deformation of advancing the frame F during thermal expansion of the corner spring 1 'is mainly because the bending angle of the base plate 3 is increased by thermal expansion.

Accordingly, it was concluded that reducing the stiffness between the neck 22 and the head 21 in the holder plate 2 did not affect the dominant compensation action of the corner spring 1 '.

Based on this conclusion, the present invention is characterized by forming a rigid reducing hole at the boundary between the neck and the head of the holder plate.

This stiffness reducing hole reduces the cross-sectional area of the boundary and, as its name suggests, reduces the rigidity between the neck and the holder, allowing the operator to easily disassemble the corner spring.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings.

In FIG. 4, the corner spring 1 is formed in the form of a Y-shaped yoke by joining the base plate 3 and the holder plate 2, each of which is bent in two stages, at the joining portion 23 as in the prior art. The head 21 in which the holder hole 24 is formed extends to the neck 22 extending from the joining portion 23 of 2).

According to the features of the present invention, a rigid reducing hole 4 is formed at the boundary between the neck 22 and the head 21 of the holder plate 2. In the embodiment of FIG. 4, the rigid reducing hole 4 is the neck 22. It is formed by the semicircular hole 4a at the side.

This rigidity reducing hole 4 is a semi-circular hole 4b on the side of the head 21 as shown in Fig. 5 (a), or the head 21 and neck (as shown in Fig. 5 (b)). It may consist of a circular hole 4c over 22).

The rigidity reducing holes 4; 4a, 4b, and 4c reduce the rigidity between the neck 22 and the head 21 to reduce the force required for deformation thereof, so that the operator presses the head 21 with a small force to hold the holder hole. The stud pin (S) to (24) will be able to be easily disassembled.

As such, the present invention has the effect of improving the workability of the decomposition coupling of the corner spring to improve the productivity of the color-brown tube using the same.

Claims (1)

In the corner spring of the color-brown tube which supports the frame and the stud pin of the panel by joining the base plate and the holder plate, each bent in two stages, in the form of a Y-shaped yoke, the net 22 and the head 21 of the holder plate 2 Corner spring of a color-brown tube, characterized in that a rigid reducing hole (4; 4a, 4b, 4c) is formed at the boundary between the two ends.