United States Patent [191 Alfrich et al.
[ Aug. 13, 1974 [5 DEFLECTION YoKE MOUNTING ASSEMBLY [75] Inventors: Floyd E. Allrich, Waterloo; Fred A.
Hovey, Geneva, both of NY.
[73] Assignee: GTE Sylvania Incorporated,
Stamford, Conn.
[22] Filed: Nov. 14, 1973 [21] Appl. No.2 415,717
[52] US. Cl. 335/210, l78/7.8
[51] Int. Cl. H011? 7/00 [58-] Field of Search 335/210, 212, 213; 313/75; l78/7.8
[56] References Cited UNITED STATES PATENTS 3,566,321 2/1971 Brown 335/210 3,764,740 10/1973 Deal 335/210 X Primary Examiner-G. Harris Attorney, Agent, or Firm-Norman J. OMalley; William H. McNeill; Cyril A. Krenzer [57] ABSTRACT A deflection yoke mounting assembly for semipermanently mounting a deflection yoke in operative position on the neck of a cathode ray tube is provided.
- The assembly comprises an annular tube ring having six spaced projecting hollow studs whioh is to be bonded to the rear of a tube. A yoke re t a iner ring cafrying a deflection yoke has four hollow pockets which receive four of the hollow studs. A hardenable adhesive is dispensed into the hollow pockets and about the four studs and simultaneously into the two remaining hollow-studs whereby the yoke retainer ring is bonded to the annular tube ring and the annular tube ring is bonded to the tube in a single operation.
6 Claims, 5 Drawing Figures PATENTEnAus 13 m4 3.829.804
To ADHESIVE DISPENSING APPARATUS ji g. 5
BACKGROUND OF THE INVENTION This invention relates to cathode ray tube deflection yokes and more particularly to a mounting assembly for semi-permanently mounting a deflection yoke in operable position upon a cathode ray tube. The prior art construction of television receivers or similar apparatus utilizing cathode ray tubes generally employed a complex mounting arrangement within the receiver for mounting the deflection yoke. The cathode ray tube was then generally fitted into the yoke. It has been recently proposed that a more suitable method would be to permanently or semi-permanently attach the deflection yoke to the cathode ray tube at the time the cathode ray tube, is manufactured. It is with the latter method of mounting a yoke that this invention is particularly concerned. The prior mounting practices involved establishing the position, in the appropriate place, of an annular tube ring. The annular tube ring is generally of a plastic material and fits against the rear wall of the cathode ray tube in a position substantially surrounding the cylindrical projecting neck of the tube. The annular tube ring is provided with a hollow interior and has a plurality of hollow projecting studs extending therefrom in a direction substantially parallel to the neck of the cathode ray tube. With the tube ring being held in its desired position a hot hardenable adhesive was forced through the hollows of the projecting studs and allowed to flow about the hollow interior of the tube ring. A suitable material will generally harden in 2 to minutes. After the tube ring was mounted, a yoke retainer ring, also generally of plastic material, and having a deflection yoke mounted therein, was positioned to be mounted upon the annular tube ring. The yoke retainer ring was provided with a number of hollow pockets having an adhesive fill opening therein. The yoke retainer ring was held in a jig which allowed for three-directional movement; i.e., movement along an X, Y and Z axis. The hollow pockets surrounded the projecting studs and after appropriate signals were applied to thetube and the deflection yoke to determine its optimum position, a hot hardenable adhesive was forced through the adhesive flll openings in the hollow pockets and surrounded the projecting studs of the tube ring. After hardening, the attaching jib could be removed and the yoke was left in a semi-permanently bonded position upon the cathode ray tube. While this procedure has worked well it has been quite expensive and time consuming in that at least two bonding or glueing operations were necessary. In view of the automated procedures generally employed in manufacturing plants this double glueing operation is not desirable.
OBJECTS AND SUMMARY OF THE INVENTION It is, therefore, an object of this invention to obviate the disadvantages of the prior art.
It is yet another object of this invention to eliminate one of the prior art glueing operations.
It is yet another object of the invention to provide an enhanced annular tube ring.
Still another object of the invention is to provide a method of mounting a deflection yoke which employs only one glueing operation.
These objects are accomplished in one aspect of the invention by the provision of a deflection yoke mounting assembly which comprises an annular tube ring and a yoke retainer ring. The annular tube ring has first means for supporting the yoke retainer ring and second means distinct from the first means for use in bonding the tube ring to the rear wall of a cathode ray tube. The
employment of the separate and distinct means for at-:
taching the tube ring to the rear wall of the cathode ray tube and for mounting the yoke retainer ring allows the use of a single glueing operation. The single glueing operation results in a savings of time, and a saving of operator cost.
BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a rear elevational view of a prior art form of the invention;
FIG. 2 is also an illustration of a prior art form of yoke mounting;
FIG. 3 is a rear view of a cathode ray tube illustrating the invention; a
FIG. 4 is an enlarged view partially in section showing in more detail the tube ring and yoke retainer ring of the invention; and
FIG. 5 is a diagrammatic perspective'view of a hot adhesive dispensing head which can be employed with the invention.
DESCRIPTION OF THE PREFERRED EMBODIMENTS For a better understanding of the present invention together with other and further objects, advantages and capabilities thereof, reference is made to the following disclosure and appended claims in conjunction with the above-described drawings.
Referring now to the drawings with greater particularity, there is shown in FIGS. 1 and 2 a prior art mounting assembly. In FIG. 1 a cathode ray tube 10 is shown in diagrammatic elevation as having a rear wall 12 and a projecting cylindrical neck 14. Substantially surrounding the neck 14 is an annular tube ring 16. The ring 16 was provided with four projecting hollow studs 18. The hollows in the studs 18 communicated with the hollow interior of tube ring 16. When tube ring 16 was first mounted in position upon the rear wall 12 of tube 10, it was maintained in that position by some means such as a jig, not shown. A hardenable adhesive in fluid form was forced through the hollows in studs 18 in an amount sufficient to penetrate the hollow interior of tube ring 16 and under sufficient pressure to cause it to flow about the internal periphery thereof. After sufficient adhesive was inserted, it was allowed to harden thus bonding tube ring 16 to the rear wall 12 of tube 10.
Thereafter, a yoke retainer ring 20 which is formed of a plastic material having a circumferential wall 22 provided with a plurality of projecting hollow pockets 24 was positioned over the studs 18 of tube ring 16. That is, the studs 18 were encompassed and surrounded by the hollow pockets 24. For purposes of clarity, the yoke itself is not shown in FIG. 2. The hollow pockets 24 had a closed bottom portion 26 which was provided with an adhesive receiving aperture 28. Again, the yoke retainer ring 20 was maintained in position by a suitable jig which is not shown. After the op- .timum position of the yoke had been determined, a
similar liquid, hardenable adhesive was forced through adhesive apertures 28 in an amountsufficient to substantially fill hollow pockets 24 and surround the encompassed studs 18. After a sufficient amount of adhesive had been dispensed it was allowed to harden. This prior mounting technique utilizing the prior assembly required two separate bonding operations. These separate bonding operations entail a good deal of time since it is necessary for each of the dispensed adhesive to harden before going on to the next step in the operation.
In order to obviate the above disadvantages, the mounting assembly shown in FIG. 4 is provided. Herein a tube ring 30 is formed with first means 32 for supporting a yoke retainer ring 34 and second means 36 for achieving the bond between the tube ring 30 and the rear wall l2 of acathode ray tube 10. The second means 36 are separate and distinct from first means 32. In this particular instance and referring again particularly to FIG. 4, it can be seen that first means 32 can comprise projecting studs. The studs in this instance do not have to be hollow although that is permissible. The second means '36, spaced from and separate and distinct from first means 32, comprise projecting hollow studs 37. These hollow studs communicate with the interior of tube ring 30. To utilize the above-described assembly, the tube ring 30 is mounted in suitable position on the rear wall 12 of tube and is maintained in that position as by a suitable jig. Yoke retainer ring 34 containing a yoke 38, which is shown diagrammatically and partly in section in FIG. 4, therein is then mounted in suitable position over the first means 32. The yoke retainer ring 34 is similar to that described in regard to the prior art and contains a circumferential wall 40 being provided with a plurality of projecting -hollow pockets 42 which are shown in section in FIG.
4. The first means 32 are encompassed within the hollow pockets 42. Again, the hollow pockets have a closed bottom portion 44 as can be seen in FIG. 3 and are provided with adhesive receiving apertures 46. With tube ring 30 and yoke retainer ring 34 now mounted and held in position and the yoke position ithesive receiving apertures 46 in hollow pockets 42 and two of which will dispense adhesive into second means 36. The simultaneous dispensing of the hardenable adhesive eliminates one of the prior art bonding operations and reduces the cost of the assembly. It also reduces the time necessary to complete the assembly since all of the adhesive is dispensed simultaneously and thus all of the dispensed adhesive will harden at substantially the same time. When hardened, the accompanying positioning jigs can be removed and the completed cathode ray tube with its semi-permanently bonded yoke will be ready for assembly into a television receiver.
While there have been shown what are at present considered to be the preferred embodiments of the invention, it will be apparent to those skilled in the art that various changes and modifications can be made herein without departing from the scope of the invention as defined by the appended claims.
What is claimed is:
1. A deflection yoke mounting assembly comprising: an annular tube ring; and a yoke retainer ring; said annular tube ring having first means for supporting said yoke retainer ring; and second means, distinct from said first means, for use in bonding said tube ring to the rear wall of a cathode ray tube.
2. The assembly of claim 1 wherein said tube ring has an angled circumferential wall and said first and second means project rearwardly from said wall.
3. The assembly of claim 2 wherein said first and second means are in the form of extending studs and at least said second means are hollow.
self optimized, both units can be sealed simultaneously.
4. The assembly of claim 3 wherein said tube ring is provided with at least an internal hollow groove which communicates with said hollows in said second means.
5. The assembly of claim 4 wherein said yoke retainer ring has a circumferential wall containing a plurality of hollow pockets, which cooperate with said first means of said tube ring.
6. The assembly of claim 5 wherein said tube ring is sealed to the rear wall of a cathode ray tube by a hardenable adhesive and said yoke retainer ring is sealed to said tube ring by a hardenable adhesive substantially filling said hollow pockets and surrounding said first means which are positioned within said hollow pockets.