CA1124401A - Encoder gun - Google Patents
Encoder gunInfo
- Publication number
- CA1124401A CA1124401A CA317,299A CA317299A CA1124401A CA 1124401 A CA1124401 A CA 1124401A CA 317299 A CA317299 A CA 317299A CA 1124401 A CA1124401 A CA 1124401A
- Authority
- CA
- Canada
- Prior art keywords
- housing
- encoder
- capacitor
- card
- probe
- 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
- Measuring Leads Or Probes (AREA)
Abstract
ABSTRACT OF THE DISCLOSURE
A manually manipulatable magnetic card encoder containing substantially all of the apparatus and wiring required to encode magnetic spots on a magnetic card key or the like. The encoder is relatively small and includes a housing provided with a pistol grip to facilitiate manual manipulation of the encoder.
A manually manipulatable magnetic card encoder containing substantially all of the apparatus and wiring required to encode magnetic spots on a magnetic card key or the like. The encoder is relatively small and includes a housing provided with a pistol grip to facilitiate manual manipulation of the encoder.
Description
~'244~1 This invention relates to a portable and manually manipulatable encoder for encoding magnetic data in the form of "spots" or patterns on the surface of cards or card keys. A card key of the type which lends itself to use with the present invention is seen in my U.S.
Patent No. 4077242, issued March 7, 1978.
In the past, most conventional card keys have been uniformly encoded with their magnetic patterns at the factory. In other words, the end user has never been provided with any equipment which would permit him to apply the desired code of magnetic spots to the surface of cards or card keys to be employed by such user. For these reasons considerable delay is encountered if the card or card key user desires to change the combination of a card key or to encode a blank card key or the like.
In a primary aspect, this provides a relatively simple hand held encoder which can be manually manipulated by the user to apply magnetic spots as required to magnetic cards and card keys.
Another aspect of the invention is the provision of a relatively small encoder which is light enough to be readily manipulated by the user and at the same time containing all of the apparatus and wiring required to create a relatively strong flux required to encode.
Accordingly, this invention provides a hand held encoder for encoding magnetic card keys and the like comprising:
housing adapted to be manually held and manipulated, a probe mounted on said housing and having an outer tip adapted to be applied against a surface to be magnetized, an electrical circuit in said housing and including:
a supply of direct current, windings around said probe, and a capacitor, a switch on said housing for discharging said capacitor through said windings to provide a magnetic field for magnetizing a spot at said surface when said tip is applied thereto, said housing being formed with a portion thereof providing a pistol grip, said switch being secured to said grip and adapted to be actuated by a finger of the user.
~1~4~
Other aspects and advantages of the invention will be apparent from the following specification and from the drawings -la-Jl ~LlZ4~
1 Fig. l is a side elevation of the preferred form of the
Patent No. 4077242, issued March 7, 1978.
In the past, most conventional card keys have been uniformly encoded with their magnetic patterns at the factory. In other words, the end user has never been provided with any equipment which would permit him to apply the desired code of magnetic spots to the surface of cards or card keys to be employed by such user. For these reasons considerable delay is encountered if the card or card key user desires to change the combination of a card key or to encode a blank card key or the like.
In a primary aspect, this provides a relatively simple hand held encoder which can be manually manipulated by the user to apply magnetic spots as required to magnetic cards and card keys.
Another aspect of the invention is the provision of a relatively small encoder which is light enough to be readily manipulated by the user and at the same time containing all of the apparatus and wiring required to create a relatively strong flux required to encode.
Accordingly, this invention provides a hand held encoder for encoding magnetic card keys and the like comprising:
housing adapted to be manually held and manipulated, a probe mounted on said housing and having an outer tip adapted to be applied against a surface to be magnetized, an electrical circuit in said housing and including:
a supply of direct current, windings around said probe, and a capacitor, a switch on said housing for discharging said capacitor through said windings to provide a magnetic field for magnetizing a spot at said surface when said tip is applied thereto, said housing being formed with a portion thereof providing a pistol grip, said switch being secured to said grip and adapted to be actuated by a finger of the user.
~1~4~
Other aspects and advantages of the invention will be apparent from the following specification and from the drawings -la-Jl ~LlZ4~
1 Fig. l is a side elevation of the preferred form of the
2 ¦ encoder with the front half of the housing removed to show
3 I internal structure.
4 Fig. 2 is a side elevation of the encoder in use to apply
5 1 a magnetic spot to a card key.
6 Fig. 3 is a top plan view of the encoder of Fig. 2.
7 Fig. 4 is a schematic wiring diagram of the circuitry.
8 The encoder comprises a molded housing, preferably of
9 plastic, which is centrally split before final assembly to provide one half, indicated at lA in Fig. l, and the opposite sim~lar 11 half indicated at lB in Figs. 2 and 3. The housing includes a 12 bottom wall 2 and side walls 3 which combine to form a pistol 13 grip wherein the complete thickness of the housing is less than 14 one-half the width of the housing as is shown in Fig. 3. The sidewalls 3 and top 4 of the housing terminate in an enlarged 16 opening 5 in which is received a support 6 which is recessed 17 within the opening 5 for fixedly securing said support to the 18 housing.
19 Fixedly secured within a central aperture 7 in support 6 is a coil 8 which may consist of about lSO turns of No. 24 21 magnet wire and which coil is adapted to create magnetic lines of 22 force for applying a strong flux to a centrally positioned probe 23 9 which is adapted to be applied by the user to the card to be 24 encoded as seen in Fig. 2. Only the major elements of the circuitry are sho~n in Fig. l since the entire circuitry is shown 26 schematically in Figo 4. First referring to Fig. 4 the encoder 27 is connected by means of lines lO, ll to a power supply 12 which 28 includes a charging resistance 13.
29 A trigger swltch generally designated lS is employed to charge and discharge a capacitor 16. In parallel with capacitor 31 16 is a lamp 17 which indicates~the condition of capacitor 16.
32 When the trigger switch 15 is moved to its up position, ~L~244~
as seen in Fig. 4, capacitor 16 discharges through coil 8 to create the desired magnetic field in probe 9. To obtain uniformity in the strength of the magnetic field it is preferable to discharge the capacitor 16 through a silicone controlled rectifier 20 in which the gate 21 is connected to the circuit through a resistance 22 to provide the desired voltage drop. Also in the circuit of coil 8 is a polarity switch 25 by which the user may reverse the polarity of the flux impressed on the card to be encoded.
Referring again to Fig. 1 it is seen that the trigger switch 15 is in the form of a push button which is convenient to the forefingers of the user when the desired pulse is to be generated in the probe.
The polarity switch 25 is also in close proximity to the forefingers of the user so that it is a simple matter to switch from one polarity to another as the coding of the card requires.
Although the size of the capacitor required in a circuit of the subject type is fairly large, such capacitor is readily received in the space available in the housing 1. The lamp 17 may be supported on a support 30 which in turn is secured to the top wall 4 of the housing 1 so that the operator may readily see the condition of the lamp 17.
Not only does the lamp provide a means for determining that the capacitor 16 is charged but it also indicates when the unit is connected to power and when it is disconnected.
Furthermore, the lamp 17 bleeds off the charged capacitor through the filament so that the encoder is not stored with a charged capacitor. If desired, an on/off switch (not shown) may be incorporated in the circuit.
In use and referring to Fig. 2 it will be seen that the encoder 1 may be employed with a template 33 which is adapted to hold a card 32 in the desired position while the probe 9 is ~;~
~L~2~
applied against said card to impress the magnetic spots thereon.
2 Said template 33 may be provided with a nonmagnetic guide plate 3 ¦ 34 which is formed with apertures arranged in a predetermined 4 I pattern to receive the probe 9 therethrough, thus insuring that 5 ¦ the magnetic spots are applied at the correct points. The 6 ¦ template 33 is not shown in detail since it forms no part of the 7 ¦ instant invention except in combination with the disclosed 8 ¦ invention as claimed in the following claims.
9 ¦ The present invention also contemplates the use of a dry
19 Fixedly secured within a central aperture 7 in support 6 is a coil 8 which may consist of about lSO turns of No. 24 21 magnet wire and which coil is adapted to create magnetic lines of 22 force for applying a strong flux to a centrally positioned probe 23 9 which is adapted to be applied by the user to the card to be 24 encoded as seen in Fig. 2. Only the major elements of the circuitry are sho~n in Fig. l since the entire circuitry is shown 26 schematically in Figo 4. First referring to Fig. 4 the encoder 27 is connected by means of lines lO, ll to a power supply 12 which 28 includes a charging resistance 13.
29 A trigger swltch generally designated lS is employed to charge and discharge a capacitor 16. In parallel with capacitor 31 16 is a lamp 17 which indicates~the condition of capacitor 16.
32 When the trigger switch 15 is moved to its up position, ~L~244~
as seen in Fig. 4, capacitor 16 discharges through coil 8 to create the desired magnetic field in probe 9. To obtain uniformity in the strength of the magnetic field it is preferable to discharge the capacitor 16 through a silicone controlled rectifier 20 in which the gate 21 is connected to the circuit through a resistance 22 to provide the desired voltage drop. Also in the circuit of coil 8 is a polarity switch 25 by which the user may reverse the polarity of the flux impressed on the card to be encoded.
Referring again to Fig. 1 it is seen that the trigger switch 15 is in the form of a push button which is convenient to the forefingers of the user when the desired pulse is to be generated in the probe.
The polarity switch 25 is also in close proximity to the forefingers of the user so that it is a simple matter to switch from one polarity to another as the coding of the card requires.
Although the size of the capacitor required in a circuit of the subject type is fairly large, such capacitor is readily received in the space available in the housing 1. The lamp 17 may be supported on a support 30 which in turn is secured to the top wall 4 of the housing 1 so that the operator may readily see the condition of the lamp 17.
Not only does the lamp provide a means for determining that the capacitor 16 is charged but it also indicates when the unit is connected to power and when it is disconnected.
Furthermore, the lamp 17 bleeds off the charged capacitor through the filament so that the encoder is not stored with a charged capacitor. If desired, an on/off switch (not shown) may be incorporated in the circuit.
In use and referring to Fig. 2 it will be seen that the encoder 1 may be employed with a template 33 which is adapted to hold a card 32 in the desired position while the probe 9 is ~;~
~L~2~
applied against said card to impress the magnetic spots thereon.
2 Said template 33 may be provided with a nonmagnetic guide plate 3 ¦ 34 which is formed with apertures arranged in a predetermined 4 I pattern to receive the probe 9 therethrough, thus insuring that 5 ¦ the magnetic spots are applied at the correct points. The 6 ¦ template 33 is not shown in detail since it forms no part of the 7 ¦ instant invention except in combination with the disclosed 8 ¦ invention as claimed in the following claims.
9 ¦ The present invention also contemplates the use of a dry
10 ¦ cell battery as the source of direct current. Sald battery may
11 ¦ be substituted for the power supply 12 and lines 10, 11. As seen
12 in Fig. 1 such battery may be positioned in the upper portion of h sing I as indlcated at 40 by dot-dash lines.
I
_4_
I
_4_
Claims (2)
1. A hand held encoder for encoding magnetic card keys and the like comprising:
housing adapted to be manually held and manipulated, a probe mounted on said housing and having an outer tip adapted to be applied against a surface to be magnetized, an electrical circuit in said housing and including:
a supply of direct current, windings around said probe, and a capacitor, a switch on said housing for discharging said capacitor through said windings to provide a magnetic field for magnetizing a spot at said surface when said tip is applied thereto, said housing being formed with a portion thereof providing a pistol grip, said switch being secured to said grip and adapted to be actuated by a finger of the user.
housing adapted to be manually held and manipulated, a probe mounted on said housing and having an outer tip adapted to be applied against a surface to be magnetized, an electrical circuit in said housing and including:
a supply of direct current, windings around said probe, and a capacitor, a switch on said housing for discharging said capacitor through said windings to provide a magnetic field for magnetizing a spot at said surface when said tip is applied thereto, said housing being formed with a portion thereof providing a pistol grip, said switch being secured to said grip and adapted to be actuated by a finger of the user.
2. A hand held encoder for encoding magnetic card keys and the like comprising:
a housing adapted to be manually held and manipulated, a probe mounted on said housing and having an outer tip adapted to be applied against a surface to be magnetized, an electrical circuit in said housing and including:
a supply of direct current, windings around said probe, and a capacitor, a switch on said housing for discharging said capacitor through said windings to provide a magnetic field for magnetizing a spot at said surface when said tip is applied thereto, a template for holding the card to be encoded, said template including openings defining points at which magnetic spots are to be applied, said outer tip of said probe being adapted to pass through said openings for engagement with said card to create points of magnetic flux whereby said card may be selectively magnetized in accordance with said template openings.
a housing adapted to be manually held and manipulated, a probe mounted on said housing and having an outer tip adapted to be applied against a surface to be magnetized, an electrical circuit in said housing and including:
a supply of direct current, windings around said probe, and a capacitor, a switch on said housing for discharging said capacitor through said windings to provide a magnetic field for magnetizing a spot at said surface when said tip is applied thereto, a template for holding the card to be encoded, said template including openings defining points at which magnetic spots are to be applied, said outer tip of said probe being adapted to pass through said openings for engagement with said card to create points of magnetic flux whereby said card may be selectively magnetized in accordance with said template openings.
Priority Applications (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CA317,299A CA1124401A (en) | 1978-12-04 | 1978-12-04 | Encoder gun |
Applications Claiming Priority (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CA317,299A CA1124401A (en) | 1978-12-04 | 1978-12-04 | Encoder gun |
Publications (1)
| Publication Number | Publication Date |
|---|---|
| CA1124401A true CA1124401A (en) | 1982-05-25 |
Family
ID=4113061
Family Applications (1)
| Application Number | Title | Priority Date | Filing Date |
|---|---|---|---|
| CA317,299A Expired CA1124401A (en) | 1978-12-04 | 1978-12-04 | Encoder gun |
Country Status (1)
| Country | Link |
|---|---|
| CA (1) | CA1124401A (en) |
-
1978
- 1978-12-04 CA CA317,299A patent/CA1124401A/en not_active Expired
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Legal Events
| Date | Code | Title | Description |
|---|---|---|---|
| MKEX | Expiry |