CONTROL METHOD FOR ELECTRON BEAM STERILIZING DEVICE AND DEVICE PERFORMING SAID METHOD

US 20110198513A1
Filed: 09/25/2009
Published: 08/18/2011
Est. Priority Date: 10/07/2008
Status: Active Grant

First Claim

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1. An electron beam sterilizing device, comprising;

an electron-generating filament,a grid electrode connected to a voltage sourcea beam-shaper,an output window,a high-voltage supply, capable of creating a high-voltage potential between the electron-generating filament and the output window, for acceleration of electrons,a high-voltage supply for driving current through the electron-generating filament,a control unit for controlling the operation of the electron beam sterilizing device,the electron beam sterilizing device has having at least three operational states comprising;

an OFF-state, where there is no drive current through the electron-generating filament,an ON-state, where the electron-generating filament is kept at a temperature above the emission temperature so as to generate electrons for sterilization, anda standby state, between the OFF-state and ON-state, where the electron-generating filament is kept at a predetermined temperature just below the emission temperature,wherein the control unit is able to control the device to assume the standby state.

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Abstract

An electron beam sterilizing device, comprises: an electron-generating filament; a beam-shaper; an output window; a high-voltage supply, capable of creating a high-voltage potential between the electron-generating filament and the output window, for acceleration of electrons; a high-voltage supply for driving current through the electron-generating filament; a control unit for controlling the operation of the electron beam sterilizing device. The electron beam sterilizing device has at least three operational states which include: an OFF-state, where there is no drive current through the electron-generating filament; an ON-state, where the electron-generating filament is kept at a temperature above the emission temperature so as to generate electrons for sterilization; and a standby state, between the OFF-state and ON-state, where the electron-generating filament is kept at a predetermined temperature just below the emission temperature. The control unit controls the device to assume the standby state.

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20 Claims

1. An electron beam sterilizing device, comprising;
- an electron-generating filament,a grid electrode connected to a voltage sourcea beam-shaper,an output window,a high-voltage supply, capable of creating a high-voltage potential between the electron-generating filament and the output window, for acceleration of electrons,a high-voltage supply for driving current through the electron-generating filament,a control unit for controlling the operation of the electron beam sterilizing device,the electron beam sterilizing device has having at least three operational states comprising;
  
  an OFF-state, where there is no drive current through the electron-generating filament,an ON-state, where the electron-generating filament is kept at a temperature above the emission temperature so as to generate electrons for sterilization, anda standby state, between the OFF-state and ON-state, where the electron-generating filament is kept at a predetermined temperature just below the emission temperature,wherein the control unit is able to control the device to assume the standby state.
- View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11)
- - 2. The sterilizing device of claim 1, further comprising a grid electrode connected to a voltage source.
  - 3. The sterilizing device of claim 1, wherein the standby state may be assumed as a response to a standstill procedure, a start-up procedure or as a step in a procedure of modulating the output beam.
  - 4. The device of claim 1, wherein the difference in filament temperature between the ON-state and the standby state is less than 600 K, preferably less than 400 K.
  - 5. The sterilizing device of claim 1, wherein the electron-generating filament and/or the grid electrode comprises at least two operational portions for variation of the current and/or profile of an output electron beam.
  - 6. The sterilizing device of claim 3, wherein the filament and/or the grid comprises two operational portions;
    - a radially inner portion and a radially outer portion.
  - 7. The sterilizing device of claim 1, wherein the device is adapted for sterilization of a web of packaging laminate.
  - 8. The sterilization device of claim 1, wherein the device is adapted to sterilize a package, preferably a package having a product contact surface comprising a polymer.
  - 9. A method for operating an electron beam sterilizing device, according to claim 1, said method comprising the step of;
    - controlling, using the control unit, the device to assume the standby state by adjusting the current through the filament.
  - 10. The method of claim 9, wherein the step of controlling the device to assume the standby state is executed as a response to any of the events comprised in the group consisting of:
    - a standstill related to the object being sterilized,a shut down procedure being initiated,a start-up procedure being initiated,the device being operated to modulate the output electron beam between the ON-state and the standby-state.
  - 11. The method of claim 10, wherein the step of assuming the standby state comprises the additional step of reducing a potential applied to the grid in order to prevent electrons from passing the grid.

12. An electron beam sterilizing device comprising:
- a housing in which is located a vacuum chamber, the housing comprising an exit window;
  
  a filament positioned in the vacuum chamber of the housing;
  
  a power supply connected to the filament to drive current through the filament and generate electrons;
  
  a voltage supply configured to create a voltage potential between the filament and the exit window to accelerate the electrons generated by the filament, with the accelerated electrons passing out of the housing through the exit window to effect sterilization; and
  
  control means for controlling operation of the electron beam sterilizing device to operate the electron beam sterilizing device in at least three operational states, the three operational states comprising;
  
  a first state in which drive current is not delivered to the filament from the power supply;
  
  a second state in which drive current is delivered to the filament from the power source to maintain the filament at a temperature above an emission temperature at which the filament generates electrons; and
  
  a third state, between the first state and the second state, in which drive current is delivered to the filament from the power source to maintain the filament at a temperature below the emission temperature.
- View Dependent Claims (13, 14)
- - 13. The sterilizing device of claim 12, further comprising a grid positioned in the housing between the filament and the exit window, the grid being connected to a grid control supply, the grid control supply being connected to the control means which controls supply of positive and negative voltage to the grid to control emission of the electrons through the grid.
  - 14. The sterilizing device of claim 13, wherein the grid comprises a radially inner portion and a radially outer portion, the control means being connected to the radially inner portion and the radially outer portion of the grid and separately controlling the supply of positive and negative voltage to the radially inner portion and the radially outer portion of the grid.

15. A method of controlling sterilization of a packaging laminate through use of an electron beam sterilizing device, the electron beam sterilizing device comprising a housing in which is positioned a filament connected to a power supply, the housing possessing an exit window, the method comprising:
- positioning the packaging laminate at the exit window while drive current, sufficient to cause the filament to generate and emit electrons, is delivered to the filament from the power supply, with the electrons generated by the filament passing through the exit window and impinging on a surface of the packaging laminate as an electron beam to sterilize the surface of the packaging laminate; and
  
  continuing to deliver drive current from the power supply to the filament, but at a reduced level insufficient for the filament to generate and emit electrons.
- View Dependent Claims (16, 17, 18, 19, 20)
- - 16. The method according to claim 15, wherein the packaging laminate is a web of packaging laminate, wherein the drive current sufficient to cause the filament to generate and emit electrons is delivered from the power supply while moving the web of packaging laminate past the exit window, and wherein the drive current is delivered to the filament at the reduced level when movement of the web of packaging laminate relative to the exit window is stopped.
  - 17. The method according to claim 15, further comprising creating a voltage potential between the filament and the exit window to accelerate the electrons generated by the filament.
  - 18. The method according to claim 15, wherein the packaging laminate is a container possessing a product contact surface comprising a polymer, the product contact surface being a surface of the packaging laminate which will be contacted by food product when the container is filled with the product.
  - 19. The method according to claim 15, wherein the drive current is delivered to the filament at the reduced level insufficient for the filament to generate and emit electrons as a response to:
    - a standstill of the packaging laminate being sterilized;
      
      initiation of a shut down procedure;
      
      initiation of a start-up procedure.
  - 20. The method according to claim 15, wherein the drive current sufficient to cause the filament to generate and emit electrons is delivered to the filament from the power supply in a first state, and the drive current insufficient for the filament to generate and emit electrons is delivered to the filament from the power supply in a second state, and wherein a difference in filament temperature between the first state and the second state is less than 600°
    - K.

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Current Assignee
Tetra Laval Holdings & Finance SA (Tetra Laval Holdings BV)
Original Assignee
Tetra Laval Holdings & Finance SA (Tetra Laval Holdings BV)
Inventors
Holm, Kurt

Granted Patent

US 8,772,743 B2
Time in Patent Office

Days
Field of Search
US Class Current

250/492.3
CPC Class Codes

A61L 2/087   Particle radiation, e.g. el...

A61L 2/24   Apparatus using programmed ...

A61L 2202/181   Flexible packaging means, e...

G21K 5/04   with beam-forming means

H01J 3/027   Construction of the gun or ...

H01J 3/08   Arrangements for controllin...

H01J 33/00   Discharge tubes with provis...

CONTROL METHOD FOR ELECTRON BEAM STERILIZING DEVICE AND DEVICE PERFORMING SAID METHOD

First Claim

1 Assignment

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Abstract

23 Citations

20 Claims

Specification

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CONTROL METHOD FOR ELECTRON BEAM STERILIZING DEVICE AND DEVICE PERFORMING SAID METHOD

First Claim

1 Assignment

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0 Petitions

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Accused Products

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Abstract

23 Citations

20 Claims

Specification

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Use Cases

Quick Links

Others