CA1129025A - Electrical connection means for a linear photoflash lamp array - Google Patents
Electrical connection means for a linear photoflash lamp arrayInfo
- Publication number
- CA1129025A CA1129025A CA353,075A CA353075A CA1129025A CA 1129025 A CA1129025 A CA 1129025A CA 353075 A CA353075 A CA 353075A CA 1129025 A CA1129025 A CA 1129025A
- Authority
- CA
- Canada
- Prior art keywords
- lead
- circuit board
- organic polymer
- adhesive
- conductive path
- Prior art date
- Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
- Expired
Links
Landscapes
- Manufacturing Of Printed Wiring (AREA)
Abstract
ELECTRICAL CONNECTION MEANS FOR A LINEAR
PHOTOFLASH LAMP ARRAY
ABSTRACT OF THE DISCLOSURE
Means are provided to repair one or more flash lamp connections in a linear type photoflash lamp array which have become disconnected from a circuit board member. Specifically, the disconnected in-lead is secured to the sequential firing circuitry located on the circuit board member with an adhesive deposit of an organic polymer. A surface conductive path is thereafter established on the cured adhesive deposit between the in-lead and the adjacent circuitry. The surface conductive path can be an organic polymer containing an electrically conductive filler.
PHOTOFLASH LAMP ARRAY
ABSTRACT OF THE DISCLOSURE
Means are provided to repair one or more flash lamp connections in a linear type photoflash lamp array which have become disconnected from a circuit board member. Specifically, the disconnected in-lead is secured to the sequential firing circuitry located on the circuit board member with an adhesive deposit of an organic polymer. A surface conductive path is thereafter established on the cured adhesive deposit between the in-lead and the adjacent circuitry. The surface conductive path can be an organic polymer containing an electrically conductive filler.
Description
,i ~Z~3~'~S
ELECTRICAL CONNECTION MEANS FOR A LINEAR
PHOTOFLAS~ LAMP ARRAY
BACKGROUND OF THE INVENTION
Various type planar or linear photoflash lamp arrays are known wherein the individual lamps are electri-cally connected to sequential firing circuitry located on the circuit board member of said array. A unit of this type is disclosed in U.S. Pat. No. 3,956,625, issued to R. M. Anderson and assigned to the assignee of the present invention which has the individual lamps arranged in two rows of side-by-side reflector units and being electrically connected to conductive strips patterned in accordance with the desired use to provide the firing circuitry on the circuit board member. The circuit board member of this array employs strips of a conductive ink deposited on a vitreous enamel substrate of the circuit board member with electrical connection of the flash lamp in-lead elements being made to the conductive ink strips by conventional soldering. The vibration and heating of these electrically connected flash lamps during further manufacture fre~uently occasions shaling of the enamel substrate and results in electrical disconnection of one or more of the flash lamp in-leads. To repair a disconnected termination requires not only that the shaled enamel be repaired but circuit continuity must also be re-established. Ordinary repair techniques such as regular adhesives, resoldering, ultrasonic A 25 sound, and low melting point glasses have not proven : .
: . , ........................... . ~. . :
., satisfactory, especially after humidity exposure o~ the --repaired termination so that an alternative repair tech-nique had to be developed which could be carried out both effectively and efficiently.
SUM~ARY OF THE INVENTION
It is an o~ject of the invention, therefore, to provide means for electrically reconnecting a photo-flash in-lead to the associated sequential firing circuit located on the circuit board member of a planar flash array having a novel construction and without impairing performance o~ the flash lamp array.
Another important object of the invention is to provide means for electrically reconnecting the flash lamp in-leads which does not further require undue repair of the associated circuitry before electrical termination can be re-established.
Briefly stated, the present means for electrically reconnecting a photoflash lamp in-lead to the sequential firing circuitry located on the circuit board member of ~0 a planar-type flash lamp array comprises adhesively securing the end of the disconnected in-lead to the circuitry and -thereafter providing a surface conductive path intercon-necting the secured in-lead to the adjacent circuit strip.
In its simplest embodiment for reconnecting the flash lamp in-lead to a circuit board member having an enameled surface, a two-step repair procedure is employed wherein the dis-connected in-lead is first bonded to the appropriate circuitry strip with a premixed liquid adhesive and the conductive path is then provided on the surface of the dried or cured adhesive deposit with an organic polymer coating containing conductor particulates. For enameled surfaces which are particularly glossy or not sufficiently clean, adherence of the adhesive joint enveloping the reconnected in-lead can be promoted by preparation of the enameled surface. Conventional adhesion promoting agents . ~ ~
can be used for this purpose such as the silane coupling material now being sold by the Union Carbide Cor~oration under the trade name A-1102 for use with epoxy resin adhesive systems. The adhesive joint can be formed by enveloping the end of the disconnected flash lamp in-lead with a liquid organic polymer adhesive and then clamping the assembly to the appropriate location on the circuit board member until sufficient handling strength has been achieved. The full cure properties of said assembly are reashed in approximately one-half hour at 60-70C
with a commercial two-part epoxy resin adhesi~e. Circuit continuity is re-established with an electrically conductive surface coating on the adhesive deposit which extends between the bare metal of the flash lamp in-lead and the adjacent circuit board conductive ink strip. Said conductive path on the surface of the adhesive deposit can be provided with a coating of a liquid organic polymer containing an electrically conductive filler such as the silver-filled epoxy resin formulation being sold by Amicon Corporation under the trade name C-926-63.
The liquid coating dries in approximately one hour at 60C to complete the electrical termination.
BRIEF DESCRIPTION OF THE DRAWINGS
FIGURE 1 is a perspective view of the circuit board member and associated flash lamps of a linear flash lamp array.
FIGURE 2 is a fragmentary perspective view o the disconnected flash lamp shown in FIGURE 1 after repair in accordance with the present invention.
DESCRIPTION OF THE PREFERRED EMBODIMENTS
Referring to FIGURE 1, a circuit board member 10 having a plurality of flash lamps 12 operatively associated therewith is shown of the type disclosed in the aforementioned Anderson patent. The in-lead wires 14 of said flash lamps 12 in the array are electrically connected to respective ,i .
. ~ , ?
:~" ~ :
z~
conductive ink strips 16 of a contact tab 1~ wnich extends from the base of said circuit board member. In-leads 14 of flash lamps 12 in said array are shown partially di~connected, however, in that one of said in-leads has physically pulled away from the conductive ink strip to which the disconnected in-lead had been soldered at location 20. As shown, such defect customarily includes some removal of the enameled surface from the circuit board member.
The manner of repairing said defect according to the present invention is depicted in FIGURE 2. Accord-ingly, the disconnected in-lead 14' of flash lamp 12' is adhesively bonded at location 20 on the circuit board member with a deposit 22 of a suitable adhesive organic polymer so that end portion 24 of the disconnected in-lead is enveloped by adhesive. An electrical conductive path 26 is established between the bare wire surface 28 of said disconnected in-lead at the adhesive joint and conductive ink strip 16' to which said in-lead has been reconnected. The repaired electrical connection successfully passed humidity and mechanical strength re~uirements as well as circuit continuity tests.
Suitable adhesive organic polymers for use in accordance with the present invention can be epoxy resins of the conventional type which include any monomeric, dimeric, or oligomeric or polymeric epoxy material containing one or a plurality of epoxy functional groups. Additionally, diluents and modifiers may be used along with conventional curing agents to produce the adhesive joint depending upon the particular substrate and conductive ink materials involved. Commercial epoxy adhesives with high shock and peel resistance have been found useful especially when further exhibiting controlled flexibility.
Likewise, a suitable electrically conductive path 26 can be provided on the surface of the adhesive deposit with commerical coating compositions. For example, ', ' ' ~ ' .. ~ .
.
liquid organic polymer mixtures are commercially available whlch include sufficient amounts o~ electrically conductive particulate solids to provide a high degree of electrical conductivity when the coating is dried or cured. By limiting the electrical path on the surface of the adhesive deposit to that between the reconnected in-lead and the conductive ink strip on the circuit board surface, there is little likelihood of developing any short-circuit condition in the lamp firing circuitry.
It will be apparent from the foregoing description that various other embodiments and modifications of the present invention will be apparent to persons skilled in the art. For example, organic polymer adhesives and electrically conductive coatings other than above specifically disclosed can be employed along with modified methods to form an adhesi~e joint having comparable characteristics. It is intended, therefore, to limit the present invention only by the scope of the following claims.
.
ELECTRICAL CONNECTION MEANS FOR A LINEAR
PHOTOFLAS~ LAMP ARRAY
BACKGROUND OF THE INVENTION
Various type planar or linear photoflash lamp arrays are known wherein the individual lamps are electri-cally connected to sequential firing circuitry located on the circuit board member of said array. A unit of this type is disclosed in U.S. Pat. No. 3,956,625, issued to R. M. Anderson and assigned to the assignee of the present invention which has the individual lamps arranged in two rows of side-by-side reflector units and being electrically connected to conductive strips patterned in accordance with the desired use to provide the firing circuitry on the circuit board member. The circuit board member of this array employs strips of a conductive ink deposited on a vitreous enamel substrate of the circuit board member with electrical connection of the flash lamp in-lead elements being made to the conductive ink strips by conventional soldering. The vibration and heating of these electrically connected flash lamps during further manufacture fre~uently occasions shaling of the enamel substrate and results in electrical disconnection of one or more of the flash lamp in-leads. To repair a disconnected termination requires not only that the shaled enamel be repaired but circuit continuity must also be re-established. Ordinary repair techniques such as regular adhesives, resoldering, ultrasonic A 25 sound, and low melting point glasses have not proven : .
: . , ........................... . ~. . :
., satisfactory, especially after humidity exposure o~ the --repaired termination so that an alternative repair tech-nique had to be developed which could be carried out both effectively and efficiently.
SUM~ARY OF THE INVENTION
It is an o~ject of the invention, therefore, to provide means for electrically reconnecting a photo-flash in-lead to the associated sequential firing circuit located on the circuit board member of a planar flash array having a novel construction and without impairing performance o~ the flash lamp array.
Another important object of the invention is to provide means for electrically reconnecting the flash lamp in-leads which does not further require undue repair of the associated circuitry before electrical termination can be re-established.
Briefly stated, the present means for electrically reconnecting a photoflash lamp in-lead to the sequential firing circuitry located on the circuit board member of ~0 a planar-type flash lamp array comprises adhesively securing the end of the disconnected in-lead to the circuitry and -thereafter providing a surface conductive path intercon-necting the secured in-lead to the adjacent circuit strip.
In its simplest embodiment for reconnecting the flash lamp in-lead to a circuit board member having an enameled surface, a two-step repair procedure is employed wherein the dis-connected in-lead is first bonded to the appropriate circuitry strip with a premixed liquid adhesive and the conductive path is then provided on the surface of the dried or cured adhesive deposit with an organic polymer coating containing conductor particulates. For enameled surfaces which are particularly glossy or not sufficiently clean, adherence of the adhesive joint enveloping the reconnected in-lead can be promoted by preparation of the enameled surface. Conventional adhesion promoting agents . ~ ~
can be used for this purpose such as the silane coupling material now being sold by the Union Carbide Cor~oration under the trade name A-1102 for use with epoxy resin adhesive systems. The adhesive joint can be formed by enveloping the end of the disconnected flash lamp in-lead with a liquid organic polymer adhesive and then clamping the assembly to the appropriate location on the circuit board member until sufficient handling strength has been achieved. The full cure properties of said assembly are reashed in approximately one-half hour at 60-70C
with a commercial two-part epoxy resin adhesi~e. Circuit continuity is re-established with an electrically conductive surface coating on the adhesive deposit which extends between the bare metal of the flash lamp in-lead and the adjacent circuit board conductive ink strip. Said conductive path on the surface of the adhesive deposit can be provided with a coating of a liquid organic polymer containing an electrically conductive filler such as the silver-filled epoxy resin formulation being sold by Amicon Corporation under the trade name C-926-63.
The liquid coating dries in approximately one hour at 60C to complete the electrical termination.
BRIEF DESCRIPTION OF THE DRAWINGS
FIGURE 1 is a perspective view of the circuit board member and associated flash lamps of a linear flash lamp array.
FIGURE 2 is a fragmentary perspective view o the disconnected flash lamp shown in FIGURE 1 after repair in accordance with the present invention.
DESCRIPTION OF THE PREFERRED EMBODIMENTS
Referring to FIGURE 1, a circuit board member 10 having a plurality of flash lamps 12 operatively associated therewith is shown of the type disclosed in the aforementioned Anderson patent. The in-lead wires 14 of said flash lamps 12 in the array are electrically connected to respective ,i .
. ~ , ?
:~" ~ :
z~
conductive ink strips 16 of a contact tab 1~ wnich extends from the base of said circuit board member. In-leads 14 of flash lamps 12 in said array are shown partially di~connected, however, in that one of said in-leads has physically pulled away from the conductive ink strip to which the disconnected in-lead had been soldered at location 20. As shown, such defect customarily includes some removal of the enameled surface from the circuit board member.
The manner of repairing said defect according to the present invention is depicted in FIGURE 2. Accord-ingly, the disconnected in-lead 14' of flash lamp 12' is adhesively bonded at location 20 on the circuit board member with a deposit 22 of a suitable adhesive organic polymer so that end portion 24 of the disconnected in-lead is enveloped by adhesive. An electrical conductive path 26 is established between the bare wire surface 28 of said disconnected in-lead at the adhesive joint and conductive ink strip 16' to which said in-lead has been reconnected. The repaired electrical connection successfully passed humidity and mechanical strength re~uirements as well as circuit continuity tests.
Suitable adhesive organic polymers for use in accordance with the present invention can be epoxy resins of the conventional type which include any monomeric, dimeric, or oligomeric or polymeric epoxy material containing one or a plurality of epoxy functional groups. Additionally, diluents and modifiers may be used along with conventional curing agents to produce the adhesive joint depending upon the particular substrate and conductive ink materials involved. Commercial epoxy adhesives with high shock and peel resistance have been found useful especially when further exhibiting controlled flexibility.
Likewise, a suitable electrically conductive path 26 can be provided on the surface of the adhesive deposit with commerical coating compositions. For example, ', ' ' ~ ' .. ~ .
.
liquid organic polymer mixtures are commercially available whlch include sufficient amounts o~ electrically conductive particulate solids to provide a high degree of electrical conductivity when the coating is dried or cured. By limiting the electrical path on the surface of the adhesive deposit to that between the reconnected in-lead and the conductive ink strip on the circuit board surface, there is little likelihood of developing any short-circuit condition in the lamp firing circuitry.
It will be apparent from the foregoing description that various other embodiments and modifications of the present invention will be apparent to persons skilled in the art. For example, organic polymer adhesives and electrically conductive coatings other than above specifically disclosed can be employed along with modified methods to form an adhesi~e joint having comparable characteristics. It is intended, therefore, to limit the present invention only by the scope of the following claims.
.
Claims (6)
1. Means for electrically reconnecting a photoflash lamp in-lead to sequential firing circuitry located on the circuit board member of a planar flash array which comprises a deposit of an adhesive organic polymer enveloping the end of said in-lead and secured to the circuitry, said adhesive deposit further including a surface conductive path interconnecting the in-lead and the adjacent circuitry.
2. The means in claim 1 wherein the surface conductive path is formed with an electrically conductive coating.
3. The means in claim 1 wherein the surface conductive path comprises an organic polymer and an electrically conductive filler.
4. A method to electrically reconnect a photoflash lamp in-lead to sequential firing circuitry located on the circuit board member of a planar flash array which comprises:
a. enveloping the end of said in-lead with a mass of an adhesive organic polymer and securing the adhesive mass to the circuitry, and b. applying a conductive path on the surface of said adhesive mass between the in-lead and the adjacent circuitry.
a. enveloping the end of said in-lead with a mass of an adhesive organic polymer and securing the adhesive mass to the circuitry, and b. applying a conductive path on the surface of said adhesive mass between the in-lead and the adjacent circuitry.
5. A method as in claim 4 wherein the conductive path is formed by depositing an electrically conductive coating on the surface of the adhesive mass.
6. A method as in claim 5 wherein said electrically conductive coating comprises an organic polymer and an electrically conductive filler.
Priority Applications (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CA353,075A CA1129025A (en) | 1980-05-30 | 1980-05-30 | Electrical connection means for a linear photoflash lamp array |
Applications Claiming Priority (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CA353,075A CA1129025A (en) | 1980-05-30 | 1980-05-30 | Electrical connection means for a linear photoflash lamp array |
Publications (1)
| Publication Number | Publication Date |
|---|---|
| CA1129025A true CA1129025A (en) | 1982-08-03 |
Family
ID=4117074
Family Applications (1)
| Application Number | Title | Priority Date | Filing Date |
|---|---|---|---|
| CA353,075A Expired CA1129025A (en) | 1980-05-30 | 1980-05-30 | Electrical connection means for a linear photoflash lamp array |
Country Status (1)
| Country | Link |
|---|---|
| CA (1) | CA1129025A (en) |
-
1980
- 1980-05-30 CA CA353,075A patent/CA1129025A/en not_active Expired
Similar Documents
| Publication | Publication Date | Title |
|---|---|---|
| CN101755022B (en) | Adhesive film, connection method, and assembly | |
| US6034331A (en) | Connection sheet and electrode connection structure for electrically interconnecting electrodes facing each other, and method using the connection sheet | |
| KR960016651A (en) | Electrically Conductive Paste Materials and Applications | |
| ATE36918T1 (en) | FLEXIBLE, DIRECTLY WELDING, CONDUCTIVE COMPOSITIONS, COMPOSITIONS SUITABLE FOR THEIR FORMATION AND THEIR APPLICATION AS COATINGS ON SUBSTRATES. | |
| US5429701A (en) | Method of electrically interconnecting conductors | |
| US4528748A (en) | Method for fabricating a printed circuit board of desired shape | |
| DE69201930T2 (en) | Connection of glazing with an electrically conductive layer. | |
| JPH0773063B2 (en) | Crimped terminal conductor coupling structure and method of forming the same | |
| US4261773A (en) | Electrical connection means for a linear photoflash lamp array | |
| CA1129025A (en) | Electrical connection means for a linear photoflash lamp array | |
| US4238543A (en) | Electrical connection means for a linear photoflash lamp array | |
| KR830001556B1 (en) | Adhesive Tape Type Electrical Connector | |
| JPS58102473A (en) | Electric connecting structure and electric connecting method therefor | |
| JPS622592A (en) | Manufacture of smoothing type circuit module | |
| JPH04242010A (en) | Anisotropic conductive agent for connection | |
| EP0401367B1 (en) | Ink-on-glass digitizer tablet and method of construction | |
| JPS6074276A (en) | Composite connector tape and method of producing same | |
| JPH04272607A (en) | Latent thermosetting anisotropic conductive adhesieve | |
| JP4578647B2 (en) | Lead member connecting method and heating element with lead member | |
| JPS6220101Y2 (en) | ||
| JPS62194692A (en) | Electronic parts | |
| JPH0353259Y2 (en) | ||
| JPS6332248B2 (en) | ||
| JPS62217694A (en) | Circuit connection | |
| JPH08253745A (en) | Adhesive |
Legal Events
| Date | Code | Title | Description |
|---|---|---|---|
| MKEX | Expiry |