NL8400579A - ELECTRIC LAMP WITH SELF-MOUNTING FRAME AND METHOD FOR CONSTRUCTION THEREOF. - Google Patents

Description

I "V 'l .. - ·" /

Electric lamp with self-mounting frame, and. method for constructing it.

Reference is made to the Dutch patent applications (our registration 120,352 and 120,354) of the applicant and with the same priority date.

The invention relates to electric lamps and in particular to such lamps with a self-mounting frame for supporting a light source capsule within an outer envelope.

In the prior art, fabrication of a double-shrouded electric lamp typically includes the following 10 steps. A light source capsule with two lead-in wires is mounted on a glass stem support. The capsule and stem are introduced into the outer casing. The glass stem support is flame-welded to the glass outer shell. The outer casing is evacuated, a desired filler gas can be introduced into the outer casing, and the outer casing is hermetically sealed. A lamp base is mounted on and cemented to the neck of the outer casing. One of the capsule lead-in wires is soldered to the insulated tip of the base. The second lead-in wire is soldered or welded to the outer shell of the foot. The described manufacture is relatively expensive. The fabrication of a hermetic weld between the lead-in wires and the glass stem and between the stem and the outer shell requires significant technical training and quality control.

A double-shrouded electric lamp of equal or better quality compared to those commonly available, which can be manufactured by a process that is simpler and less expensive than the above-described process would provide an improvement in the art.

It is thus an object of the invention to avoid the disadvantages of the known art.

Another object of the invention is to provide a self-mounting frame for a double-shrouded electric lamp.

Yet another object of the invention is to provide a double-shrouded electric lamp which can be easily and economically fabricated.

These objects are achieved in one aspect of the invention by forming an electrical lamp with an outer shell, a frame within the outer shell, and a light source capsule mounted on one end of the frame. The lamp further includes mounting means for mounting the frame and the light source capsule within the outer shell by means of elastic forces and frictional forces. Devices are connected to the lamp for supplying electrical energy to the light source capsule.

The lamp is manufactured according to a method with the following steps. An outer shell is formed. A frame is formed. A light source capsule is constructed.

The light source capsule is mounted on one end of the frame. The frame and the light source capsule are mounted within the outer casing by means of elastic forces and frictional forces. Devices for supplying electrical energy to the light source capsule from an external source are connected to the lamp.

Double-enveloping electric lamps with a self-mounting frame for carrying a light source capsule within the outer envelope can be manufactured more simply and economically than double-enveloped lamps, which are usually available without sacrificing the quality of the lamps.

The invention will be explained in more detail below with reference to the drawing.

Figure 1 is a longitudinal section of an embodiment of the invention.

Figure 2 is an enlarged cross-sectional view along line 2-2 of Figure 1 with parts omitted for clarity 8400579.

Figure 3 is an enlarged cross-sectional view of the neck portion of the outer shell of the embodiment of Figure 1.

Figure 4 is an enlarged perspective view of a frame used in the embodiment of Figure 1.

Figure 5 is a perspective view of a screw lamp base.

Figure 6 is an enlarged view of a clamp-10 portion of the frame of Figure 4.

Figure 7 is a longitudinal section of another embodiment of the invention.

Figure 8 is an enlarged cross-sectional view taken on the line 8-8 of Figure 7 with parts removed for clarity.

Figure 9 is an enlarged view of the neck portion of the outer shell of the embodiment of Figure 7.

Figure 10 shows in perspective a frame used in the embodiment according to figure 7.

Figure 11 is a plan view of the frame used in the embodiment of Figure 7.

The term light source capsule designates a halogen capsule of a tungsten-halogen incandescent lamp, or an arc tube of an arc discharge lamp, or any light emitting capsule within the outer envelope of a lamp.

The term elastic is used here as the property of a body, which, when formed, returns to its normal shape automatically when the deformation forces are removed. The term friction is here denoted as the force which resists relative movement between two touching bodies caused by the respective properties of the surfaces of each body in contact with each other. Neither elastic nor friction are used here for a force 8400579 · '* - 4 - which is opposite to relative motion between two bodies caused by fusion of one body with the other, such fusion involving a glass-to-glass weld or glass to metal.

Figure 1 shows an embodiment of the invention with a lamp 30 with a longitudinal axis L and an outer envelope 32, a light source capsule 34, a frame 36 and a base 38.

The outer sheath 32 has a neck portion 40. The capsule 34 in this case is a tungsten-halogen filament capsule having a first lead-in wire 42, a second lead-in wire 44 and a tungsten filament 45 extending between the internal terminals of the lead-in wires 42 and 44 The capsule 34 in this case is mounted on the frame 36 by means of the lead-in wire 42.

Figure 2 shows the neck 40 with a first groove 46 with inner wall 47 and a second groove 48 with inner wall 49, both grooves being formed in neck 40.

Figure 3 shows that within a groove 46 a back 52 is formed near the edge of the neck 40. Also, a back 20 54 is formed near the edge of the neck 40 within the groove 48.

Annular back 50 surrounds neck 40 near the ends of grooves 46 and 48 facing away from the edge. The back 50 is not limited within the grooves 46 and 48.

The frame 36 is shown in Figure 4 and is characterized here as a clamping type. This feature describes the manner in which the frame 36 is mounted as will be described below. As can be seen in Figure 1, the frame 36 with the capsule 34 mounted thereon is inserted into the outer shell 32 through the neck 40 and positioned so that clamps 56 and 58 are aligned with grooves 46 and 48, respectively. frame 36 can be pushed deeper into the outer shell 32. By doing this, the clamp 56 will be spread open by the back 52. When the frame 36 is fully inserted into the outer shell 32, the clamp 56 will spring back to its original shape due to the inherent elastic action of the material. from which the clamp 56 is made. The clamp 56 can be characterized as clamping on the back 52. When the frame 36 is mounted, the recessed portion 65 of the clamp 56 engages the back 52. In an identical manner, the recessed portion 67 of the clamp 58 engages the back 54 Thus, the clamps 56 and 58 exert elastic forces and frictional forces against the neck 40 of the outer shell 32 forming the mounting member for the frame 36 in this embodiment through their recessed portions 65 and 67.

Figure 5 shows in perspective a lamp cap 38 with a screw sleeve 60 and an insulated top 62. In the embodiment of the invention according to Figure 1, the base 38 is characterized as a type of imprint. This describes the method of mounting the base 38 on the outer shell 32, which is performed by pressing the base 38 over the neck 40 and clamps 56 and 58 toward the back 50. Thus mounting the base 38 , the sleeve 60 will compress the protrusions 64 and 66 to the inner walls 47 and 49, respectively, thereby preventing the clamps 56 and 58 from opening, as well as ensuring that the clamps 56 and 58 will be strong and securely mounted on the outer shell 32. The base 38, when fitted, strengthens the frame mounting members 36.

Protrusions 64 and 66 have sharp-edged tips 68 and 70, respectively. When the base 38 is fully assembled, the tips 68 and 70 will bite into the sleeve 60.

The base 38, if fitted, will deform the protrusions 64 and 66 into grooves 46 and 48, respectively. Elastic forces within these clamps will attempt to return protrusions 64 and 66 to their non-protruding positions. The elastic forces cause the tips 68 and 70 of the projections 64 and 66 to press against the sleeve 60, respectively, with sufficient force to embed the sharply pointed tips in the sleeve 60. Any attempt to move the foot 38 away from the back 50 or any attempt to rotate the foot 38 with or against a timepiece around the neck 40 will be prevented by the protrusion 8400579 m * - 6 - seis 64 and 66, which, embedded in the sleeve 60, will keep or lock the pedestal 38 in its mounted position. Thus, in this embodiment of the invention, the foot 38 cooperates with the clamps 56 and 58 and the neck 40 to form locking members through which it. frame 36, base 38 and outer sheath 32 will continue to cooperate firmly despite pushing and using lamp 30.

Figure 6 shows an enlarged view of the clamp 56 and an angle A is seen, which is preferably greater than 45 °. When the foot 38 is mounted, the sleeve 60 presses it out of the projection 64 into the groove 46. Due to the freedom of movement in the groove 46, the clamp 56 does not withstand the movement of the foot 38 over the neck 40 towards the back 50. Identical reasons, the clamp 58 does not resist the same movement of the foot 38.

When the foot 38 is fully assembled, any movement of the foot 38 away from the back 50 or any rotational movement of the foot 38 will be prevented by the clamps 56 and 58.

In this embodiment of the invention, the base 38 is threaded. The threads on the sleeve 60 are not essential for the latches. A bayonet base or other type of lamp base with or without a thread can be used with the same latches as described in this embodiment and the desired results will be obtained. Sharp tips 68 and 70 are made of a material that is sufficiently sharp and durable with respect to the sleeve 60 that the tips 68 and 70 will bite or embed in the sleeve 60 when the foot 38 is mounted on the neck 40.

The contact of the tops 68 and 70 with the sleeve 60 can form a suitable electrical connection between the sleeve 30 60 and the frame 36. In this embodiment, the frame 36 is made of an electrically conductive material and an inlet 42 can be mounted on the frame 36 such that a suitable electrical connection as well as a good constructional connection is made between the inlet 42 and the frame 36. Thus, the inlet 42 of the capsule 34 is electrically connected through the frame 36 and the sleeve 60 with one pole of an external power source. The elastic nature of the frame 36 will help maintain electrical contact for the life of the lamp. The electrical circuitry within the lamp 30 is completed by electrically connecting the input 44 of the capsule 34 to the top 62 of the base 38, such as by soldering. The top 62 is electrically insulated from the sleeve 60 of the base 38. The sleeve 60 and the top 62 of the base 38 are constructed of electrically conductive material.

Figure 7 shows another embodiment of the invention. A lamp 80 has a longitudinal axis L and includes an outer sheath 82, a light source capsule 84, a frame 86 and a screw base 38. The outer sheath 82 has a neck portion 90. In this case, the capsule 84 is a tungsten-halogen filament capsule. having a first lead-in wire 92, a second lead-in wire 94 and a tungsten filament 95 extending between the internal terminals of the lead-in wires 92 and 94. The capsule 84 is mounted on the frame 86 via the lead-in wire 92.

The neck 90 is formed with a first groove 96 and a second groove 98. The groove 96 includes three connecting grooves, namely, the first connecting groove 100, the second connecting groove 102, and the third connecting groove 104. The groove 100 is formed in the edge 114 of the neck 90 and extends from the inner surface 116 to the outer surface 118 where it communicates with the groove 102.

The neck 90 has a screw thread 106 formed therein, the screw thread extending approximately from the edge 114 to the back 117. The thread 106 corresponds to the internal screw thread of the foot 38 so that the foot 38 can be mounted by screwing on the neck 90. The groove 102 is formed in the outer surface 118 and the thread 106. The groove 102 extends from the edge 114 to the back 117 and parallel to the central axis L and traverses the thread 106 to the groove 102 groove 104 meets. The groove 104 is formed 3400579-8 in the outer surface 118 and the screw thread 106. It is perpendicular to the groove 102. It extends from the groove 102 in the direction in which the screw thread 106 runs to the spine 117.

The groove 98, consisting of connecting grooves 5 108, 110 and 112, is formed opposite the groove 96 in the neck 90.

Grooves 104 and 112 both point in the direction of the advancement of the thread 106, that is, in the rotational direction of the foot 38 when the foot 38 is mounted on the neck 90.

Figure 10 shows a perspective view of the frame 86 which is characterized here as a slip-on type. This feature describes the manner in which the frame 86 is mounted. As shown in Figure 7, the frame 86 with the capsule 84 mounted thereon is inserted into the outer shell 82 through the neck 90 and positioned so that a molded leg 120 is aligned with the groove 96 and a molded leg 128 on is aligned with the groove 98. This is possible because the leg 120 of the frame 86 is preformed to match the groove 96 of the neck 90 as follows: segment 122 fits into the. groove 100, segment 20 124 fits into groove 102, segment 126 fits into groove 4 at the intersection of grooves 102 and 104, and segment 126 tangentially protrudes from groove 104. Similarly, leg 128 of the frame 86 preformed to match groove 98 of neck 90 such that segment 130 fits into groove 108, segment 132 fits into groove 110, segment 134 fits into groove 112 when cutting grooves 110 and 112, and segment 134 protrudes tangentially from groove 112.

Figure 11 is a plan view of the frame 30 86 showing angles B and C, each being a right angle, indicating why segments 126 and 134 protrude tangentially from grooves 104 and 112, respectively, when the frame 86 is mounted on the neck 90. Thus the frame 86 is mounted on the outer shell 82 by the slip-on frame 86 on the neck 90 ', so that the legs 120 and 128 fit into corresponding receptacles 8400579-9 grooves 96 and 98, respectively.

The threaded lamp base 38 can also be used with the lamp of Figure 7. The foot 38 is mounted on the neck 90 by screwing the foot 38 onto the screw thread 106 with the frame 86 already fitting on the neck 90.

In order to fully assemble the base 38, protruding segments 126 and 134 of frame 86 must be pressed into grooves 104 and 112, respectively. The foot 38 is characterized as a screw-on foot because of the method of mounting. When pressed, segments 126 and 134 act as springs. Each segment exerts an elastic force against the sleeve 60 of the foot 38. These elastic forces do not interfere with the forward rotation of the foot 38 towards the back 117 of the neck 90, because both segments point towards the mounting rotation. However, if the foot 38 is rotated in the disassembly direction, sharp tips 136 and 138 of legs 120 and 128 will immediately bite into the sleeve 60 and prevent further rotation of the foot 38 in the disassembly direction, respectively. Thus, when the base 38 is fully assembled, the base 38 is permanently locked in place.

Mounting the base 38 also securely fixes the frame 86. The foot 38 presses the segments 126 and 134 firmly into the grooves 104 and 112, respectively, and the spring action of these two segments against the sleeve 60 enhances the safety of the frame mounting members 86. The entire sleeve of the foot 38 aids also at the frame mounting members 86.

In the embodiment of Figure 7, the cooperating threads of the neck 90 and foot 38 allow the 30 foot 38 to be mounted by screws on the neck 90. Sharp tips 136 and 138 may be formed from a sufficiently sharp and durable material with the sleeve 60 to ensure that the tips will bite or become embedded in the sleeve 60 causing the latches to act.

8400573 - 10 -

In the embodiment of Figure 7, the frame 86 is formed from an electrically conductive material. The contact of the tips 136 and 138 with the sleeve 60 forms an excessive electrical contact for a pole of an electrical circuit. Electric energy from an external source can be transferred to the capsule 84 through the frame 86 electrically connected to the lead-in wire 92. The circuit is completed by electrically connecting the lead-in wire 94 to the top 62 of the base 38, which is electrically is insulated from sleeve 60.

In a laboratory example of the embodiment of Figure 1, nickel-plated stainless steel 0.051 cm thick was used to fabricate the frame 36. The capsule 34 was mounted on the frame 36 by welding the inlet 42 to the frame 36 .

In a laboratory example of the embodiment of Figure 7, the frame 86 was made of nickel plated steel wire with a diameter of 1.27 cm. The capsule was mounted to the frame by welding the inlet 92 to the frame 86. In both embodiments, the base 38 was one

Edison foot. The frames were made by welding the respective component parts.

In laboratory examples of both embodiments of the invention of Figures 1 and 7, the wall thickness of the neck portion of the outer casing was greater than any other wall of the outer casing to provide additional strength to the neck portion of the lamps. The outer casings were formed from soda lime glass via a blow molding manufacturing process.

It will be clear that changes are possible within the scope of the invention.

8400579

Claims (17)

1. Electric lamp, characterized in that it includes an outer casing, a frame within the outer casing, a light source capsule mounted at one end of the frame, mounting means for mounting the frame and the light source capsule within the outer casing elastic forces and frictional forces, and means connected to the lamp for carrying electrical energy to the light source capsule. Lamp according to claim 1, characterized in that the frame is mounted in the outer casing. Lamp according to claim 1, characterized in that the elastic forces and frictional forces are exerted by the frame. Lamp according to claim 1, characterized in that the lamp has a base which is mounted on the outer casing. Lamp according to claim 4, characterized in that the elastic forces and frictional forces are exerted by the foot. Lamp according to claim 4, characterized in that the elastic forces and frictional forces are exerted by the frame and the base which act together. 7. Lamp as claimed in claim 4, characterized in that the frame mounting members are provided with locking members, whereby the frame, the base and the outer casing remain firmly in cooperation. 8. Lamp as claimed in claim 7, characterized in that the frame is of the clamping type and the base of the printing type is 30. Lamp according to claim 7, characterized in that the frame is of the slip-on type and the base is of the screw-on type. 10. Electric lamp, characterized in that it has an outer casing, a frame in the outer casing, a light source capsule mounted on one end of the frame within the outer casing, a base mounted on an outer casing, the outer housing, mounting means for mounting the frame and the light source capsule on the base, and means connected to the lamp for supplying electrical energy to the light source capsule. 11. Method of constructing an electric lamp, characterized in that an outer envelope is formed, a frame is formed, a light source capsule is formed, the light source capsule is mounted at one end of the frame, the frame and the light source capsule are mounted inside the outer sheath by means of elastic forces and frictional forces, and connectors are applied to the lamp for supplying electrical energy to the light source capsule from an external source. Method according to claim 11, characterized in that the frame is mounted on the outer casing. Method according to claim 11, characterized in that a base is mounted on the outer casing. 20 Method according to claim 12, characterized in that a base is mounted on the outer casing. 15. A method according to claim 14, characterized in that the frame mounting members are provided with locking members through which the frame, the base and the outer casing continue to cooperate firmly with each other. 16. A method of constructing an electric lamp, characterized in that an outer envelope is formed, a frame is formed, a light source capsule is formed, the light source capsule is mounted on one end of the frame, a base is formed, the frame is mounted on the base, connectors are formed at the lamp capsule for supplying electrical energy to the light source capsule from an external source, and the base is mounted on the outer casing such that the frame and the light source capsule are mounted within the outer casing. 8400579 Λ - 13 - 17. Device and method substantially as described in the description and / or shown with reference to the drawing. * 8400579