US1683092A - Piezo-electric crystal holder - Google Patents

Piezo-electric crystal holder Download PDF

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Publication number
US1683092A
US1683092A US197494A US19749427A US1683092A US 1683092 A US1683092 A US 1683092A US 197494 A US197494 A US 197494A US 19749427 A US19749427 A US 19749427A US 1683092 A US1683092 A US 1683092A
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United States
Prior art keywords
cabinet
crystal
contact
electrical
crystal holder
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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 - Lifetime
Application number
US197494A
Inventor
Carlos B Mirick
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Wired Radio Inc
Original Assignee
Wired Radio Inc
Priority date (The priority date 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 date listed.)
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Publication date
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Priority to US197494A priority Critical patent/US1683092A/en
Application granted granted Critical
Publication of US1683092A publication Critical patent/US1683092A/en
Anticipated expiration legal-status Critical
Expired - Lifetime legal-status Critical Current

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    • HELECTRICITY
    • H03ELECTRONIC CIRCUITRY
    • H03HIMPEDANCE NETWORKS, e.g. RESONANT CIRCUITS; RESONATORS
    • H03H9/00Networks comprising electromechanical or electro-acoustic elements; Electromechanical resonators
    • H03H9/02Details
    • H03H9/05Holders or supports
    • H03H9/10Mounting in enclosures
    • H03H9/1007Mounting in enclosures for bulk acoustic wave [BAW] devices
    • H03H9/1014Mounting in enclosures for bulk acoustic wave [BAW] devices the enclosure being defined by a frame built on a substrate and a cap, the frame having no mechanical contact with the BAW device
    • H03H9/1028Mounting in enclosures for bulk acoustic wave [BAW] devices the enclosure being defined by a frame built on a substrate and a cap, the frame having no mechanical contact with the BAW device the BAW device being held between spring terminals

Definitions

  • My invention relates broadly to piezoelec tric crystal holders and more particularly to a plezo-electric crystal holder of such a construction that a plurality of crystals may be mounted in one unit for quickly inserting any one of tlie crystals in a circuit.
  • the object of my invention isl to produce a crystal holder unit of such a compact desi Y that a plurality of crystals holders may i; mounted therein in such a/manner that electrical contacts may be madp with any one bf the crystals without changing the constants of the circuit other "than those. controlled directly by the crystal.
  • My invention consists substantially in the construction, combination and arrangement of parts associated therewith or as will be more fully hereinafter set forth as shown by the accompanying drawings and finally.
  • Figure 1 is a plan View of my improved crystal holder
  • Figure 2 is an end view of the same
  • Figure 3 is a sectional view on the line 3 3 of Figure 1
  • Figure 4 is a sectional vi'ew on the line 4 4 of Figure 1,
  • Figure 5 is an'elevational view of the plete crystal holder unit
  • Figure is a plan view thereof with the 40 cover open, l p
  • Figure 7 is a sectional view on the line 7 7 of Figure 6, andv e ⁇ Figure 8 is a sectional view on the line 8 8 of Figure 6.
  • Figures 1 4 that represent a compact crystal holder described. in detail and claimed in my co-pending application, Serial Number 197 ,133 filed 7 June 1927, lnumeral 1 represents a rectan lar 50 frame of insulating material suchas akelite or hard rubber. Upon the opposite surfaces of the rectangular frame 1 are mounted pew/elle@ .retainer Strips .2 and that are held 1927. serial No. 197,494.
  • Plate 5 is a solid plate bent up at the v end as shown at 7 and forms one electrode for the piezoelectric crystal 8 that rests firmly thereon.
  • a retainer plate 9 of insulating material Surrounding the crystal is a retainer plate 9 of insulating material. This retainer plate is so designed that the crystal is firmly held in position relative to any horizontal movement over the cover plate 5.
  • the cover plate 6 has an aperture in its central portion that is somewhat larger than the crystal itself but smaller than the internal periphery of the frame 1.
  • an arcuate spring member 10 that is firmly held in position relative to the plate by means of pins 11 riveted to the ends of the arcuate member 10 and engaging holes 12 in the cover plate.
  • an electrode plate 13 that engages the surface of the crystal 8. By means of the pivotal connection the electrode plate 13 exerts an even pressure over the surface of the crystal which in turn exerts an l even distributed pressure upon the cover plate 5 which serves as the other electrode for the crystal.
  • a iexible connection 14 is made from the cover plate 6 directly to the electrode plate.
  • a piece of transparent material 15 such as celluloid or lthe like inlaid in the surf/aceof the cover plate, or held in position thereon by a dovetail groove machined in the surface of the plate and allowing ready removal of the Window.
  • numeral 16 represents a cabinet the top of which is closed by a cover 17 hinged at points 18 and held in closed posi/tion by a spring latch 19 which engages a groove 20 in one edge of the door when it is in closed position,
  • a skeleton ca inet 21 in the sides of which and extending to within a short distance of the bottom ⁇ thereof are a plurality of dou e grooves 22.
  • These double grooves consist f an inner groove 23, the width of which is the same as the thickness of the crystal holder 24 described in Figures 1-4, and an outer groove 25 in which are mounted the contact strips 26.
  • the width of the skeleton cabinet is such that the distance between the bottom of the grooves described is identical with the length of the crystal holder described in Figures 1-4.
  • the contact springs 26 are arcuate in form and are placed with their tips in the bottom of the grooves. One tip of each spring is extended i length to form contact'l arms 27. Between the arcuate portion and the'contact arm the strips are securely fastened to the cabinet by meansof screws 28.
  • a contact drum 30 In the lower portion of the cabinet there is positioned a contact drum 30 with its axis perpendicular to the position of the crystal holders when placed in the cabinet.
  • One end of shaft 31 of thi's'drum rests in a bearing 32 in the side of the casing.
  • the other end -of the shaft extends-through a bearing 33 in the opposite wall of the cabinetand terminates in a gear 34.
  • a plurality of contact posts 35 arran ed in the form of two helixes, these two eing substantially diagonal across the drum from each other.
  • the posts in each helix are connected together by a wire 36 which in turn is connected to a plurality of contact posts 37 arranged in one plane about the cylindrical surface of thedrum.
  • Each one of the' contact posts upon each helix is so located that as the drum is turned each one of these contacts cooperate in sequency with its corresponding contact arm 27.
  • contact ⁇ arms 38 Located opposite the contact posts 37 that are arranged in a plane on the surface of the drum, are contact ⁇ arms 38 that are attached to the terminals 39 of the unit.
  • a dial plate 40 Mounted upon the upper portion of the casing is a dial plate 40 that carries a gear 41 in engagement with the gear 34 upon the end of the shaft of the drum 30.'
  • the dial plate carries a plurality of posts 42'that enable the operator to turn the mechanism above described without removin the heavy gloves that it is the custom of suoli operators to wear, to connect any one of the crystals into the operating circuit.
  • the dial may be calibrated to correspond to the calibration upon the casing of the cabinet to indicate w ich of the crystals is controlling the operation of the circuit in which this device is employed.
  • a multiple crystal unit the combination of a cabinet, electrical terminals upon the cabinet, a plurality of grooves within the cabinet, individual crystal holders within the grooves, and means for making electrical contact between each of the crystal holders and the terminals independently of the other crystal holders.
  • a multiple crystal unit the combination of a cabinet, electrical terminals upon the cabinet, a plurality of double grooves within the cabinet, individual crystal holders having contacts upon their sides inserted within the double grooves, contact strips within the double grooves, electrical contact arms extending from the contact strips to the lower ortion of the cabinet and means for producing individual electrical connection between each of the electrical arms and the terminals upon the cabinet.
  • aV cabinet electrical terminals upon the cabinet, a plurality of double grooves within the cabinet, individual crystal holders having contacts upon their sides inserted within the double grooves, contact strips within the double grooves, electrical contact arms extending from the contact strips to the lower portion of the cabinet and means for producing individual electricalconnection between each of the electrical contact arms and the terminals upon the cabinet said means comprising a drum of insulating material having a plurality of contacts upon its surface.
  • a multiple crystal unit the combination of a cabinet, electrical terminals upon the cabinet, a plurality of double grooves within the cabinet, individual crystal holders having contacts upon their sides inserted within the double grooves, contact strips within the double grooves, electrical contact arms extending from the contact strips to the -lower portion of the cabinet and means for producing individual electrical connection between each of the electrical contact arms and the terminals upon the cabinet, said means comprising a drum of insulating material, a plurality of contact posts upon the drum and meansior producing electrical connection between the contact posts andl said electrical terminals.
  • a multiple crystal unit the combination of a cabinet, electrical terminals upon the cabinet, a plurality of double ooves within the cabinet, individual crystal olders having contacts upon their sides inserted within the double grooves, contact strips within the double grooves, electrical contact arms extending from the contact strips to the lower portion of the cabinet and means for connection between said terminals and said producing individual electrical connection contacts
  • said last mentioned means consisting between each of the electrical contact arms of a plurality of contact posts arranged in a 10 and the terminals upon the cabinet, said plane perpendicular to the axis of the drum 5 means comprising a drum of insulating mateand electrical contact arms connected to the rial having a plurality of contacts upon its terminals upon the cabinet. surface, and means for obtaining electrical CARLOS B. MIRICK.

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  • Physics & Mathematics (AREA)
  • Acoustics & Sound (AREA)
  • Piezo-Electric Or Mechanical Vibrators, Or Delay Or Filter Circuits (AREA)

Description

Sept, 4, 192s.
c. B. MlRlcK PIEZO ELECTRIC CRYSTAL HOLDER Filed June 8, 1927 2 Sheets-Sheet \l f /llLllull INVEN TOR. Carlos /Vzrz'c ATTORNEYS.
sept. 4, 1928. 1,683,092
C. B. MIRICK PIEZO ELECTRIC CRYSTAL HOLDER Filed June 8, 1927 2 Sheets-Sheet 2 S 15)/ 4l S o Y r Hx, o
o '9 M ,MU
L; u; 27 i 1 \38 'WE., n i l IM/venan arios 5. /Vz'rz'ck 61H01 nu,
Patented Sept. 4, 1928.
UNITED STATES PATENT l OFFICE.
CARLOS B. MIRICK, F WASHINGTON, DISTRICT 0F COLUMBIA, ASSIGNOB T0 WIBED RADIO, INC., QF NEW YOIi'K, N. Y.,
A CORPORATION or DELAWARE.
PmZO-ELECTRIC CRYSTAL HOLDER.
Application led June 8,
My invention relates broadly to piezoelec tric crystal holders and more particularly to a plezo-electric crystal holder of such a construction that a plurality of crystals may be mounted in one unit for quickly inserting any one of tlie crystals in a circuit.
The object of my invention isl to produce a crystal holder unit of such a compact desi Y that a plurality of crystals holders may i; mounted therein in such a/manner that electrical contacts may be madp with any one bf the crystals without changing the constants of the circuit other "than those. controlled directly by the crystal.
Further objects of my invention will appear more fully hereinafterl as the descrip; tion of the method and apparatus is developed. 4
My invention consists substantially in the construction, combination and arrangement of parts associated therewith or as will be more fully hereinafter set forth as shown by the accompanying drawings and finally.
pointed out in the appended claims. Reference is to be had to the accom anying e drawings forming a part of this specication in which like reference characters indicate corresponding arts throughout the severa-l views, and in w ich ;A l
Figure 1 is a plan View of my improved crystal holder,
'Figure 2 is an end view of the same, Figure 3 is a sectional view on the line 3 3 of Figure 1,
Figure 4 is a sectional vi'ew on the line 4 4 of Figure 1,
Figure 5 is an'elevational view of the plete crystal holder unit,
Figure is a plan view thereof with the 40 cover open, l p
Figure 7 is a sectional view on the line 7 7 of Figure 6, andv e `Figure 8 is a sectional view on the line 8 8 of Figure 6.
Referring particularly to Figures 1 4 that represent a compact crystal holder described. in detail and claimed in my co-pending application, Serial Number 197 ,133 filed 7 June 1927, lnumeral 1 represents a rectan lar 50 frame of insulating material suchas akelite or hard rubber. Upon the opposite surfaces of the rectangular frame 1 are mounted pew/elle@ .retainer Strips .2 and that are held 1927. serial No. 197,494.
and 6. Plate 5 is a solid plate bent up at the v end as shown at 7 and forms one electrode for the piezoelectric crystal 8 that rests firmly thereon.
Surrounding the crystal is a retainer plate 9 of insulating material. This retainer plate is so designed that the crystal is firmly held in position relative to any horizontal movement over the cover plate 5.
The cover plate 6 has an aperture in its central portion that is somewhat larger than the crystal itself but smaller than the internal periphery of the frame 1. Upon the inner side of the plate is mounted an arcuate spring member 10 that is firmly held in position relative to the plate by means of pins 11 riveted to the ends of the arcuate member 10 and engaging holes 12 in the cover plate. Upon the center of the arcuate member 10 there is pivotally mounted an electrode plate 13 that engages the surface of the crystal 8. By means of the pivotal connection the electrode plate 13 exerts an even pressure over the surface of the crystal which in turn exerts an l even distributed pressure upon the cover plate 5 which serves as the other electrode for the crystal.
In order that possible poor Contact. of the pivotal connection to the electrode plate 13 and thecontacts at the points 11 and 12 will not introduce resistance in the circuit a iexible connection 14 is made from the cover plate 6 directly to the electrode plate. Over y the opening in the cover plate- 6 there is a piece of transparent material 15 such as celluloid or lthe like inlaid in the surf/aceof the cover plate, or held in position thereon by a dovetail groove machined in the surface of the plate and allowing ready removal of the Window. By this structure I have developed a crystal holder that is dust proof and constitutes substantially a moisture proof container for the crystal that ridigly holds the crystal in place and allows transportation Without danger of breakage.
Referring particularly to Figures 5 to 8, numeral 16represents a cabinet the top of which is closed by a cover 17 hinged at points 18 and held in closed posi/tion by a spring latch 19 which engages a groove 20 in one edge of the door when it is in closed position,
In the u per portion of the cabinet is a skeleton ca inet 21 in the sides of which and extending to within a short distance of the bottom `thereof are a plurality of dou e grooves 22. These double grooves consist f an inner groove 23, the width of which is the same as the thickness of the crystal holder 24 described in Figures 1-4, and an outer groove 25 in which are mounted the contact strips 26. The width of the skeleton cabinet is such that the distance between the bottom of the grooves described is identical with the length of the crystal holder described in Figures 1-4. I
The contact springs 26 are arcuate in form and are placed with their tips in the bottom of the grooves. One tip of each spring is extended i length to form contact'l arms 27. Between the arcuate portion and the'contact arm the strips are securely fastened to the cabinet by meansof screws 28.
In the lower portion of the cabinet there is positioned a contact drum 30 with its axis perpendicular to the position of the crystal holders when placed in the cabinet. One end of shaft 31 of thi's'drum rests in a bearing 32 in the side of the casing. The other end -of the shaft extends-through a bearing 33 in the opposite wall of the cabinetand terminates in a gear 34.
Upon the face of the drum 30 are a plurality of contact posts 35 arran ed in the form of two helixes, these two eing substantially diagonal across the drum from each other. The posts in each helix are connected together by a wire 36 which in turn is connected to a plurality of contact posts 37 arranged in one plane about the cylindrical surface of thedrum. Each one of the' contact posts upon each helix is so located that as the drum is turned each one of these contacts cooperate in sequency with its corresponding contact arm 27. Located opposite the contact posts 37 that are arranged in a plane on the surface of the drum, are contact `arms 38 that are attached to the terminals 39 of the unit.
Mounted upon the upper portion of the casing is a dial plate 40 that carries a gear 41 in engagement with the gear 34 upon the end of the shaft of the drum 30.' The dial plate carries a plurality of posts 42'that enable the operator to turn the mechanism above described without removin the heavy gloves that it is the custom of suoli operators to wear, to connect any one of the crystals into the operating circuit. The dial may be calibrated to correspond to the calibration upon the casing of the cabinet to indicate w ich of the crystals is controlling the operation of the circuit in which this device is employed.
It will be understood that the above description and accompanying drawings comprehend only the general and preferred embodiment of my invention and that minor detail changes in the construction and ar'- rangement of parts may be made within the scope of the appended claims without sacriicing any of the advantages of my invention.
What I claim is as follows:
1. In a multiple crystal unit, the combination of a cabinet, electrical terminals upon the cabinet, a plurality of grooves within the cabinet, individual crystal holders within the grooves, and means for making electrical contact between each of the crystal holders and the terminals independently of the other crystal holders.
2. In a multiple crystal unit, the combination of a cabinet, electrical terminals upon the cabinet, a plurality of double grooves within the cabinet, individual crystal holders having contacts upon their sides inserted within the double grooves, contact strips within the double grooves, electrical contact arms extending from the contact strips to the lower ortion of the cabinet and means for producing individual electrical connection between each of the electrical arms and the terminals upon the cabinet.-
3. In a multiple crystal unit, the combination of aV cabinet, electrical terminals upon the cabinet, a plurality of double grooves within the cabinet, individual crystal holders having contacts upon their sides inserted within the double grooves, contact strips within the double grooves, electrical contact arms extending from the contact strips to the lower portion of the cabinet and means for producing individual electricalconnection between each of the electrical contact arms and the terminals upon the cabinet said means comprising a drum of insulating material having a plurality of contacts upon its surface. P
4. In a multiple crystal unit, the combination of a cabinet, electrical terminals upon the cabinet, a plurality of double grooves within the cabinet, individual crystal holders having contacts upon their sides inserted within the double grooves, contact strips within the double grooves, electrical contact arms extending from the contact strips to the -lower portion of the cabinet and means for producing individual electrical connection between each of the electrical contact arms and the terminals upon the cabinet, said means comprising a drum of insulating material, a plurality of contact posts upon the drum and meansior producing electrical connection between the contact posts andl said electrical terminals.
5. In a multiple crystal unit, the combination of a cabinet, electrical terminals upon the cabinet, a plurality of double ooves within the cabinet, individual crystal olders having contacts upon their sides inserted within the double grooves, contact strips within the double grooves, electrical contact arms extending from the contact strips to the lower portion of the cabinet and means for connection between said terminals and said producing individual electrical connection contacts said last mentioned means consisting between each of the electrical contact arms of a plurality of contact posts arranged in a 10 and the terminals upon the cabinet, said plane perpendicular to the axis of the drum 5 means comprising a drum of insulating mateand electrical contact arms connected to the rial having a plurality of contacts upon its terminals upon the cabinet. surface, and means for obtaining electrical CARLOS B. MIRICK.
US197494A 1927-06-08 1927-06-08 Piezo-electric crystal holder Expired - Lifetime US1683092A (en)

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