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DARK ROOM.ppt

This document discusses the proper construction and design of a darkroom for radiography. It outlines key considerations for the location, structure, ventilation, heating, radiation protection, lighting, and entrance of the darkroom. The darkroom should be centrally located near imaging rooms with adequate power, water, and ventilation. The floor, walls and ceiling should be made of durable, stain-resistant materials. Radiation protection, such as lead shielding, is important. Proper safelighting and white lighting are also discussed to allow for safe film processing and handling.

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Introduction of the darkroom by Dr. Abhilash Jayaram.

Key factors for darkroom location include proximity to imaging rooms, accessibility, and avoidance of damp areas.

Plan views for darkroom setups supporting three and four rooms.

Important structural elements include floor, walls, ventilation, and light reflection to improve working conditions.

Ensuring protection from ionizing radiation and specifications for materials to be used in darkroom construction.

Highlighting the importance of ventilation, humidity control, ideal temperatures, and airflow changes in darkrooms.

Discussion on various entrance types with a focus on light prevention and accessibility to improve darkroom efficiency.

Importance of having unobstructed alternative exits in dark rooms for fire safety.

Light requirements including general white light versus safe light, emphasizing safe exposure levels for film.

How safelights operate with color filters, considerations for usage, and color choices to prevent fogging.

Instructions on the placement of safelights and their specifications for safe operations within the darkroom.

Best practices for handling films with safelight exposure limits and procedures to prevent fogging.

Protocols for conducting safelight tests to determine maximum safe handling times for films.

Requirements for assessing radiographs with specification for a wall-mounted illuminator.

Strategies for effectively managing light circuits to prevent accidental exposure in darkrooms.

Recommendations for a well-organized darkroom layout, equipment requirements, and processing methods.

Specifications for darkroom setups with automatic processors, equipment dimensions, and arrangement.

Effective storage solutions for unexposed films, including the design of hoppers and cupboard storage.

Overview of cassette racks and hatches designed for efficient film storage and retrieval.

Additional equipment needed for manual processing of films in a darkroom setup.

Specifications for installing sinks to support wet processing in darkrooms.

Equipment for drying processed films with specifications on operational requirements and structure.

A visual layout representation of a standard darkroom design for optimal functionality.

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DARK ROOM Dr. Abhilash Jayaram
DARKROOM CONSTRUCTION/DESIGN Location of Darkroom:-  Darkroom should be in close proximity to where the work of radiographer is carried out.  Centrally sited and serviced by hatches from adjacent imaging rooms.
DARKROOM CONSTRUCTION/DESIGN Location of Darkroom:-  Sited away from damp or hot areas.  Accessible in terms of power and water supply.  Adjoining viewing area where processed films are checked and sorted.
Plan view of a three-room department serviced by one darkroom
Plan view of a four-room department serviced by one darkroom
DARKROOM CONSTRUCTION Certain structural characters are important:-  Nature of floor  Walls and ceiling  Ventilation and heating  Type of entrance.
Floor, walls and ceiling Important considerations:-  Number of people likely to work in a particular darkroom.  Number of examinations made in the department.  Type of processing.
Floor, walls and ceiling (cont.)  Requires a minimum floor area of 10 m2.  Ceiling height should be around 2.7- 3m. (But not greater than 3.3 m if ceiling reflector lamps are to be used).
Floor, walls and ceiling (cont.) Nature of floor material:- 1. Non-porous. 2. Resistant to staining by chemicals. 3. Does not become slippery when wet.
Floor, walls and ceiling (cont.)  Semi-vitreous and non- vitreous tiles are sensitive to stains.  Concrete or ceramic tiles become slippery when wet.  Improved by inclusion of small amount of abrasive, granular material.  Satisfactory resistant substances are those of a composition which has a high proposition of asphalt: porcelain.
Floor, walls and ceiling (cont.)  Same recommendations apply to walls as to the floor, particularly in neighborhood of sinks and wet processing equipment.  Protected to a height of at least 1.3m.  Ceramic or plastic tiles can be applied to wall surfaces.
Floor, walls and ceiling (cont.)  Good quality paint should give adequate protection.  Untreated brick work are likely undergo a gradual process of destruction.  A glossy cream or white paint on the wall do well.  Orange or green, are to be avoided as they reflect light from safelight poorly.
Floor, walls and ceiling (cont.)  Paints to be acid-resistant.  Paint should not produce flakes which are likely to fall on sensitive materials.  Plaster is to be avoided.  Modern emulsion paint satisfactory.
Floor, walls and ceiling (cont.)  Modern practice is to obtain as much reflected light as possible which provides diffuse illumination.  Diffuse illumination will improve working condition.  Reflected light does not differ in wavelength from the incident light and offers no greater risk to sensitive materials.
Radiation protection  Require protection from ionizing radiations- especially X-rays from adjoining radiographic room.  Primary beam is never directed at the wall of darkroom.  Ceilings and floors also should be considered.  These remarks also apply to storerooms where reserve stocks of film may be kept.
Radiation protection (cont.)  Room in which film is stored or handled should have a lead equivalency of 2mm.
Radiation protection (cont.) Appropriate materials for this purpose are:-  1. A 25 mm layer of high quality barium plaster (1 part fine BaSO4; 1 part coarse BaSO4; 1 part Portland cement.)  2. A single brick wall; 225mm solid brick.  3. A wall which is half in thickness + half-inch layer of high quality barium plaster.
Radiation protection (cont.)  4. A 150mm thickness concrete.  5. Lead ‘plymax’ board with 2mm of lead.  Particular attention should be given to obtaining an overlap at points of discontinuity in the walls.
Radiation protection (cont.)  Entry of ionizing radiation can be proved by placing a coin on an envelope-wrapped film.  The coin should lie between the film and the surface of wall.  It is left for some time, for a week perhaps.  If the room is not adequately protected, a faint image of the coin will be apparent on the test film.
Ventilation & Heating  When ventilation is poor even the performance of automatic processor will be effected.  Humidity is raised, that leads to inefficient heat loss from the processor.  Films may show increased density and fogging.  An increase in humidity cause inadequate film drying.
Ventilation & Heating  Space recommended for a technician in a darkroom is 1,000 cu.ft.  It is sometimes recommended to have windows for darkroom.  Air in the darkroom should be completely changed at least 5-10 times/ hour.
Ventilation & Heating (cont.)  Done by cross ventilation by means of an extractor fans situated at a high level, while air is drawn in from outside source at a low level.  Air intake should be from outside and ideally would be filtered to remove dust.  Apparatus for intake of air may be blow-in fan.
Ventilation & Heating (cont.)  Must be light-trapped.  Ideally intake and extraction would be from diagonally opposite points.  An intake fan will lose efficiency if the temperature of the room is much greater than outside.  This will be improved if incoming air can be warmed by passing it through a radiator.
Ventilation & Heating (cont.)  Extractor fan should be given greater power than their intake companions.  Darkroom temperatures should be maintained between 65°- 68° F (18°-20°C).  Relative humidity of atmosphere ideally should be 40 to 60%.  A good air-conditioning system would be more efficient.
Types of Entrance  Single door,  Double doors,  Labyrinth,  Rotating door system.
Single Door System  Access is via a single door  Ensure door is capable of totally excluding the light.  Customary to link electronically the door locking mechanism with lighting ciruit.  Relatively inexpensive.
Double Door System  Each door should be sturdy in structure and well fitting.  Employment of double doors arranged on either side of a small vestibule.  The dimensions of vestibule may be no larger than is required to accept one adult of average build. Some variations in double door:-  Inner door to be sliding type.
Plan view of a darkroom with double door light lock entrance
Labyrinth  Consists of 2 parallel passages and a facing wall.  Design of labyrinth should be such that light is absorbed at least three times between external area and darkroom.  Aim is to diminish the intensity of light to a harmless level.
Labyrinth Entrance. Plan view
Labyrinth Labyrinth’s effectiveness will be greater if:-  A matt black paint is used for interior of passages.  Vertical height of the entrance is limited to 2 meters.  Length of each passage is not less than 3 meters.  Width of each passage is not more than 700mm.
Labyrinth Advantages of Labyrinth are:-  Provides easy and instant access to dark room at all times.  Offers no hazard to a single-handed operator.  May effectively participate in the ventilation  Adaptable.
Fire Safety  All dark rooms should be provided with an alternative exit and left unobstructed all the time.
Dark room Illumination  Electric shock is a potential hazard.  All lights in the darkroom should be operated by a pull cord switch.  Electric points should be of three-pin shuttered type and waterproof.  Should be properly earthed.
Dark room Illumination (cont.) Two categories:-  General white light  Safe light  Viewing equipment.
General white light White light is necessary for following tasks:-  Inspection and maintenance of cassettes and screens.  Cleaning work surfaces and floor.  Servicing the equipment.
White Light White light should be:-  It should placed close to the ceiling to avoid strong shadows.  Moderate in intensity (e.g. 60 W) in order to make visual accommodation under safelight easier.  Tungsten rather than fluorescent.
Safe lighting  Should be less than the maximum level of brightness permitted by most sensitive material which is being handled by it.  The term “safe” implies only a degree of safety.  All films become fogged if exposed to safelight for long enough.
How does a safelight work?  When light is passed through coloured filters, certain wavelengths are absorbed by filters.  Those wavelengths which correspond to the colour of filters are transmitted.  Choosing a filter which transmits a colour to which the film is relatively unresponsive.
Safe lighting (cont.) Sensitivity is related to:-  Wavelength or colour of light.  Intensity of light and  Duration of exposure.
Safe lighting (cont.) Attention to be paid to:-  Correct colour of safelight chosen.  Wattage of lamp used.  Their distance from any point at which sensitive material is handled.
Safe lighting (cont.)  Red or brown lighting is generally employed.  They represent the region of spectrum for which we have greatest visual sensitivity at low levels of illumination.  Lacquered bulbs or colored glasses are not satisfactory.  These are likely suffer cracks in their coating.  They also does not provide a sufficient range of colour to be useful.
Safe lighting (cont.)  An ordinary pearl bulb of not more than 25 watts is used.  Safelight should be sited a minimum of 1.2 m from the film.  A coloured filter is placed in front of the bulb which will tint the light of required hue.
Safelight filters  Are sheet of gelatin dyed to appropriate colour and sandwiched between two sheets of glass.  Gelatin will deteriorate in extremes of heat and moisture.  Most common cause of overheating of gelatin is use of an electric bulb of too high wattage.  Safe illumination appears to have diminished in a darkroom because cleaning might be overdue.  Safelight and filters require regular attention.
Safe lighting (cont.)  Safelighting can be either direct or indirect.
Direct safelighting  Lamp has a circular filter 14 cm (5.5 inches) in diameter.  Suspended from the ceiling or fixed to the wall.  Placed such a way that sensitive material is normally handled no nearer to it than 122 cm (4 feet).
Direct safelighting
Direct safelighting (cont.)  Films should not be held close to the safelamps.  Direct safelighting is ideal for film loading and unloading areas.  Often situated near to a manual processing unit; lamp is needed for the inspection of the film during development.
Direct safelighting (cont.)  Often situated above the feed tray of a automatic processor.  Lamp illumines the work area during the introduction of a film, light goes out as soon as the processor has accepted the film.  Reappearance of light indicates processor’s readiness for next film.
Indirect safelighting  Intended to provide general illumination of the darkroom.  Safelamp directs the light towards the ceiling which reflects it back into the room.  Standardization of reflective abilities of the ceiling is needed.  It should not have a dull surface.  Should be painted a glossy pale cream or white.
Indirect safelighting  The height of the ceiling should be within 2.7-3.3 meters.  If high ceiling cannot be avoided, reflectors are hanged 1 m above the safelamp.  Some safelamp has filters on both surfaces suitable for providing both indirect and direct illumination simultaneously.  Allowed for every 6.5 m2 of floor space.  Lower edge of lamp should be 2.1 m above floor level.
Safelamp for both direct and indirect illumination
Safe film-handling time  Maximum time for which a film can be exposed to the safelights without any appreciable degree of fogging.
Safelight Test  Tests to ascertain that illumination employed is safe. Required in following circumstances:-  Darkroom is a new one.  Safelights have been changed or additions made to them.  Particular lamp is suspect as the cause of fogging.
Safelight Test (cont.)  A cardboard holder to take the film to be tested should be previously prepared.  The holder should be of enough size to accommodate the film.  The film selected for the test should be of the fastest speed.  The selected film is taken in a cassette to an X-ray room.  A sheet of lead is used to cover half of the cassette lengthwise.
Safelight Test (cont.)
Safelight Tests (cont.)  Other half of the film is given a slight exposure to X-rays sufficient to produce on development a density of 0 ּ8.  In the darkroom all lights are switched off.  Exposed films are more sensitive to light than films which have had no exposure.  The holder is then completely covered by a large piece of card.
Safelight Tests (cont.)  The holder with the film is placed on the loading bench, the film being uppermost and towards safelamp to be tested.  Switch on the safelamp(s) to be tested.  The card is withdrawn to expose a strip at the upper edge of the film for 4 minutes.  The card is withdrawn to expose another strip of film for 2minutes.  Film again completely covered with the piece of cardboard.
Safelight Tests (cont.)  Film is processed in darkness.  Film can be divided vertically into 4 regions.  Area A has neither been pre-exposed nor received safelight exposure.  Any density in this area is basic fog.
Safelight Tests (cont.)  Area B has had no X-ray exposure, has received a controlled series of increasing exposure to safelighting; this is the reaction of unexposed film.  Area C has been pre-exposed to X-ray and received safelight exposure.  Area D has pre-exposed to X-ray but received no safelight.
Safelight Tests (cont.)
Safelight Tests (cont.)  Strip 6 10 seconds  Strip5 10+15= 25 sec  Strip4 10+15+30= 55 sec  Strip3 10+15+30+60=115 sec (1.9min)  Strip2 10+15+30+60+120= 235 sec (3.9min)  Strip1 10+15+30+60+120+240= 475 (7.9 min)
Safelight Tests (cont.)  The area is examined with densitometer.  Area D – To establish pre-exposure to X ray was 0.8.  Area A – Used for measurement of basic fog.  Area B – examined for the first density which is 0.05 above the basic fog.  As soon as such a density is found, look at the edge of flap and calculate total time of exposure.
Safelight Tests (cont.)  This time represents maximum safe film- handling time for unexposed film.  Similar way maximum safe film-handling for exposed film calculated.  Safe film-handling time for exposed materials will always be shorter than unexposed film.  If no such density appears, then safe for up to 8 minutes for exposed and non-exposed film.
Safelight Tests (cont.)  The first appearance of a density increase which is more than 0.05 above the basic fog indicates first unsafe period.  The intensity of safelighting reaching the work area must be reduced to give a longer safe period of exposure.
Safelight Tests (cont.)  Typical safe film-handling time averages between 20 – 45 S.
Viewing Equipment  Provision is needed for assessment of wet radiograph.  Minimum requirement is a single illuminator wall mounted above the processing unit, attached directly to wall.  Very susceptible to splashing, should be protected from rust and corrosion.  Illuminator should be operated by s pull-cord switch.
Switching of light circuits  White-light switching arranged to reduce the possibility of it being switched on accidentally.  Light circuits are controlled separately in a ‘dry’ area of room.  Switches should be placed at a very different heights.  The switch for white-light put out of normal reach.
Switching of light circuits (cont.)  Safelight switch might be 1.5 m from floor and the white-light switch 2 m from floor.  Recommended to have a cord-operated master control near the door of darkroom.
Switching of light circuits (cont.)  Recommended to have a cord-operated change-over switch which give either white or safelight.  Fitting an indicating lamp, outside the darkroom door, wired in parallel with safelights and provides warning when they are in use.
Darkroom Equipment and Layout  Overlap between wet and dry operations should be avoided. Well planned darkroom has following characteristics:-  Effective separation of wet and dry operations.  Orderly sequence of successive stages of work.  Neat layout of equipment.  Clear ‘traffic lanes’.
Darkroom Equipment and Layout Equipments necessary to an X-ray darkroom:-  A bench upon which to unload, reload cassettes.  Apparatus in which processing is performed.  Essential accessories.  Method of processing may be manual or automatic.
The Darkroom with Automatic processing The loading bench:-  Should provide enough space.  Long enough to allow 3 or 4 of largest cassettes to be placed open.  Recommended allowance in length is 2.5 m/ operator, minimum width 600 mm.  Height should be not less than 900 mm.
Darkroom dry bench system
The loading bench  Top of bench should be hard wood or teak.  Thick linoleum is a good choice.  Hard wearing, sound deadening and anti-static.  Will not acquire static electric charge.
Automatic processors  Only feed tray is of processor is kept in the darkroom.  The processed film may be collected and viewed in the viewing area.
A through-the-wall position for automatic processor
Automatic processors
Film Storage  For unexposed films immediate to use.  Stock of unexposed materials for near future. Film Hopper:-  Films intended for immediate use are kept in hopper under loading bench.  Device is a cone shaped drawer hinged at its lower edge.
Film hopper
Film hopper (cont.)
Film hopper (cont.)  Inside should be painted black.  Has 4-5 compartments.  Provide orderly storage of films with ready access.
Film hopper (cont.)  Each box of film should be opened.  The contents should be unpacked and replaced in the box so that folded edge of such covering is uppermost.  The box itself is then put into the hopper, both as protection to the film and it prevents films curving under their own weight.
Film hopper (cont.)  Hopper must be well made and completely light-tight.  Prominent printed warning should be outside that it should not be opened in white light.  A lock enable the hopper to be left secure.  A drawer or door operated switch in series with white lights, which can be fitted to hopper.
Film Storage (cont.) Drawers:-  Shallow light-tight drawers should be used.  Drawers should be labelled.  Less convenient.
Film Storage (cont.) Cupboards:-  Intended to stock a small current supply of films for replenishment.  Their dimensions should allow the boxes to stand upright.  Vertical divisions prevent tipping sideways as the stock becomes diminished.
Cassette Rack  It is a rack which may house loaded cassettes.  Consists of number of vertical compartments of various heights.
Cassette Rack
Cassette Hatches  Allow cassettes and film to be passed between radiographic room and processing room.  Hatches should open on to the loading bench.  Most conveniently fitted on a communicating wall when X-ray and darkroom are adjacent.  They enable the work to flow easily.
Cassette Hatches
Cassette Hatches Special features:-  Light proof in structure.  Interlocking device which prevent both doors of hatch being simultaneously opened.  Must be proof against X-rays, ensured by incorporating lead.  Some may be metal in construction others made of plywood.
Cassette Hatches (cont.)  Distinguishing between exposed films and reloaded cassettes required.  There are 2 compartments; one being labeled ‘exposed’ and other ‘unexposed’.  Another pattern is lower horizontal compartment for exposed materials, two vertical sections for outgoing cassettes.
The Darkroom with a Manually operated processor Darkroom requires additional equipments:-  Storage space for processing-hangers.  Hot and cold water supply and sink.  Storage space for packs of chemicals and mixing equipments.  Drying cabinet.
Hanger Storage  Provided by wall brackets above the loading bench.  Only one type of hanger occupies any particular bracket.  Typical metal bracket projects about 230 mm from the wall, holds about 12 hangers.  End of brackets upturned to lessen the risk of hangers falling.
Hanger Storage (cont.)
Hanger Storage (cont.)  A suitable height of brackets above the bench would be 750 mm.  The space between 2 brackets should be at least 360 mms.
Darkroom Sink  ‘Wet’ darkroom requires a general purpose sink.  Important not to place the sink in a position continuous with loading bench.  It should be along opposite walls of darkroom.  Dimensions are 750 X 450 X 250 mms.  Top of sink should not be less than 750 mm from floor.
Darkroom Sink (cont.)  Hot and cold water should be supplied.  The taps should be placed 400 mms apart.  Anti-splash device recommended.  Draining boards are useful.  Cupboards should be provided under or near to sink.  They are needed for the storage of equipments for cleaning.
Drier  Used for drying processed radiographs  Most of the driers work with - hot air.  Moist air exhausts from these driers.  If the unit is situated in the darkroom, a duct must be provided for air’s removal.  Films are hung in the hangers, from the slotted racks.  A drip tray is often provided beneath.
Drier
Drier  Cabinet has a fan for circulating the air and heater elements to warm it.  Doors should not be kept open when the heater is on.  Some units are provided with thermo-switch.  Materials used in the construction of drier are stainless steel and chemically resistant substances such as PVC.
Viewing area Should be furnished with:-  Work surfaces,  Compartment and shelving for film and patient categories,  Cassette storage racks,  Viewing boxes and lobbies.
Lay-out of a typical darkroom
DARK ROOM.ppt

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DARK ROOM.ppt

  • 1.
  • 2.
    DARKROOM CONSTRUCTION/DESIGN Location of Darkroom:- Darkroom should be in close proximity to where the work of radiographer is carried out.  Centrally sited and serviced by hatches from adjacent imaging rooms.
  • 3.
    DARKROOM CONSTRUCTION/DESIGN Location of Darkroom:- Sited away from damp or hot areas.  Accessible in terms of power and water supply.  Adjoining viewing area where processed films are checked and sorted.
  • 4.
    Plan view ofa three-room department serviced by one darkroom
  • 5.
    Plan view ofa four-room department serviced by one darkroom
  • 6.
    DARKROOM CONSTRUCTION Certain structural charactersare important:-  Nature of floor  Walls and ceiling  Ventilation and heating  Type of entrance.
  • 7.
    Floor, walls andceiling Important considerations:-  Number of people likely to work in a particular darkroom.  Number of examinations made in the department.  Type of processing.
  • 8.
    Floor, walls andceiling (cont.)  Requires a minimum floor area of 10 m2.  Ceiling height should be around 2.7- 3m. (But not greater than 3.3 m if ceiling reflector lamps are to be used).
  • 9.
    Floor, walls andceiling (cont.) Nature of floor material:- 1. Non-porous. 2. Resistant to staining by chemicals. 3. Does not become slippery when wet.
  • 10.
    Floor, walls andceiling (cont.)  Semi-vitreous and non- vitreous tiles are sensitive to stains.  Concrete or ceramic tiles become slippery when wet.  Improved by inclusion of small amount of abrasive, granular material.  Satisfactory resistant substances are those of a composition which has a high proposition of asphalt: porcelain.
  • 11.
    Floor, walls andceiling (cont.)  Same recommendations apply to walls as to the floor, particularly in neighborhood of sinks and wet processing equipment.  Protected to a height of at least 1.3m.  Ceramic or plastic tiles can be applied to wall surfaces.
  • 12.
    Floor, walls andceiling (cont.)  Good quality paint should give adequate protection.  Untreated brick work are likely undergo a gradual process of destruction.  A glossy cream or white paint on the wall do well.  Orange or green, are to be avoided as they reflect light from safelight poorly.
  • 13.
    Floor, walls andceiling (cont.)  Paints to be acid-resistant.  Paint should not produce flakes which are likely to fall on sensitive materials.  Plaster is to be avoided.  Modern emulsion paint satisfactory.
  • 14.
    Floor, walls andceiling (cont.)  Modern practice is to obtain as much reflected light as possible which provides diffuse illumination.  Diffuse illumination will improve working condition.  Reflected light does not differ in wavelength from the incident light and offers no greater risk to sensitive materials.
  • 15.
    Radiation protection  Requireprotection from ionizing radiations- especially X-rays from adjoining radiographic room.  Primary beam is never directed at the wall of darkroom.  Ceilings and floors also should be considered.  These remarks also apply to storerooms where reserve stocks of film may be kept.
  • 16.
    Radiation protection (cont.) Room in which film is stored or handled should have a lead equivalency of 2mm.
  • 17.
    Radiation protection (cont.) Appropriatematerials for this purpose are:-  1. A 25 mm layer of high quality barium plaster (1 part fine BaSO4; 1 part coarse BaSO4; 1 part Portland cement.)  2. A single brick wall; 225mm solid brick.  3. A wall which is half in thickness + half-inch layer of high quality barium plaster.
  • 18.
    Radiation protection (cont.) 4. A 150mm thickness concrete.  5. Lead ‘plymax’ board with 2mm of lead.  Particular attention should be given to obtaining an overlap at points of discontinuity in the walls.
  • 19.
    Radiation protection (cont.) Entry of ionizing radiation can be proved by placing a coin on an envelope-wrapped film.  The coin should lie between the film and the surface of wall.  It is left for some time, for a week perhaps.  If the room is not adequately protected, a faint image of the coin will be apparent on the test film.
  • 20.
    Ventilation & Heating When ventilation is poor even the performance of automatic processor will be effected.  Humidity is raised, that leads to inefficient heat loss from the processor.  Films may show increased density and fogging.  An increase in humidity cause inadequate film drying.
  • 21.
    Ventilation & Heating Space recommended for a technician in a darkroom is 1,000 cu.ft.  It is sometimes recommended to have windows for darkroom.  Air in the darkroom should be completely changed at least 5-10 times/ hour.
  • 22.
    Ventilation & Heating(cont.)  Done by cross ventilation by means of an extractor fans situated at a high level, while air is drawn in from outside source at a low level.  Air intake should be from outside and ideally would be filtered to remove dust.  Apparatus for intake of air may be blow-in fan.
  • 23.
    Ventilation & Heating(cont.)  Must be light-trapped.  Ideally intake and extraction would be from diagonally opposite points.  An intake fan will lose efficiency if the temperature of the room is much greater than outside.  This will be improved if incoming air can be warmed by passing it through a radiator.
  • 24.
    Ventilation & Heating(cont.)  Extractor fan should be given greater power than their intake companions.  Darkroom temperatures should be maintained between 65°- 68° F (18°-20°C).  Relative humidity of atmosphere ideally should be 40 to 60%.  A good air-conditioning system would be more efficient.
  • 25.
    Types of Entrance Single door,  Double doors,  Labyrinth,  Rotating door system.
  • 26.
    Single Door System Access is via a single door  Ensure door is capable of totally excluding the light.  Customary to link electronically the door locking mechanism with lighting ciruit.  Relatively inexpensive.
  • 27.
    Double Door System Each door should be sturdy in structure and well fitting.  Employment of double doors arranged on either side of a small vestibule.  The dimensions of vestibule may be no larger than is required to accept one adult of average build. Some variations in double door:-  Inner door to be sliding type.
  • 28.
    Plan view ofa darkroom with double door light lock entrance
  • 29.
    Labyrinth  Consists of2 parallel passages and a facing wall.  Design of labyrinth should be such that light is absorbed at least three times between external area and darkroom.  Aim is to diminish the intensity of light to a harmless level.
  • 30.
  • 31.
    Labyrinth Labyrinth’s effectiveness willbe greater if:-  A matt black paint is used for interior of passages.  Vertical height of the entrance is limited to 2 meters.  Length of each passage is not less than 3 meters.  Width of each passage is not more than 700mm.
  • 32.
    Labyrinth Advantages of Labyrinthare:-  Provides easy and instant access to dark room at all times.  Offers no hazard to a single-handed operator.  May effectively participate in the ventilation  Adaptable.
  • 33.
    Fire Safety  Alldark rooms should be provided with an alternative exit and left unobstructed all the time.
  • 34.
    Dark room Illumination Electric shock is a potential hazard.  All lights in the darkroom should be operated by a pull cord switch.  Electric points should be of three-pin shuttered type and waterproof.  Should be properly earthed.
  • 35.
    Dark room Illumination(cont.) Two categories:-  General white light  Safe light  Viewing equipment.
  • 36.
    General white light Whitelight is necessary for following tasks:-  Inspection and maintenance of cassettes and screens.  Cleaning work surfaces and floor.  Servicing the equipment.
  • 37.
    White Light White lightshould be:-  It should placed close to the ceiling to avoid strong shadows.  Moderate in intensity (e.g. 60 W) in order to make visual accommodation under safelight easier.  Tungsten rather than fluorescent.
  • 38.
    Safe lighting  Shouldbe less than the maximum level of brightness permitted by most sensitive material which is being handled by it.  The term “safe” implies only a degree of safety.  All films become fogged if exposed to safelight for long enough.
  • 39.
    How does asafelight work?  When light is passed through coloured filters, certain wavelengths are absorbed by filters.  Those wavelengths which correspond to the colour of filters are transmitted.  Choosing a filter which transmits a colour to which the film is relatively unresponsive.
  • 40.
    Safe lighting (cont.) Sensitivityis related to:-  Wavelength or colour of light.  Intensity of light and  Duration of exposure.
  • 41.
    Safe lighting (cont.) Attentionto be paid to:-  Correct colour of safelight chosen.  Wattage of lamp used.  Their distance from any point at which sensitive material is handled.
  • 42.
    Safe lighting (cont.) Red or brown lighting is generally employed.  They represent the region of spectrum for which we have greatest visual sensitivity at low levels of illumination.  Lacquered bulbs or colored glasses are not satisfactory.  These are likely suffer cracks in their coating.  They also does not provide a sufficient range of colour to be useful.
  • 43.
    Safe lighting (cont.) An ordinary pearl bulb of not more than 25 watts is used.  Safelight should be sited a minimum of 1.2 m from the film.  A coloured filter is placed in front of the bulb which will tint the light of required hue.
  • 44.
    Safelight filters  Aresheet of gelatin dyed to appropriate colour and sandwiched between two sheets of glass.  Gelatin will deteriorate in extremes of heat and moisture.  Most common cause of overheating of gelatin is use of an electric bulb of too high wattage.  Safe illumination appears to have diminished in a darkroom because cleaning might be overdue.  Safelight and filters require regular attention.
  • 45.
    Safe lighting (cont.) Safelighting can be either direct or indirect.
  • 46.
    Direct safelighting  Lamphas a circular filter 14 cm (5.5 inches) in diameter.  Suspended from the ceiling or fixed to the wall.  Placed such a way that sensitive material is normally handled no nearer to it than 122 cm (4 feet).
  • 47.
  • 48.
    Direct safelighting (cont.) Films should not be held close to the safelamps.  Direct safelighting is ideal for film loading and unloading areas.  Often situated near to a manual processing unit; lamp is needed for the inspection of the film during development.
  • 49.
    Direct safelighting (cont.) Often situated above the feed tray of a automatic processor.  Lamp illumines the work area during the introduction of a film, light goes out as soon as the processor has accepted the film.  Reappearance of light indicates processor’s readiness for next film.
  • 50.
    Indirect safelighting  Intendedto provide general illumination of the darkroom.  Safelamp directs the light towards the ceiling which reflects it back into the room.  Standardization of reflective abilities of the ceiling is needed.  It should not have a dull surface.  Should be painted a glossy pale cream or white.
  • 51.
    Indirect safelighting  Theheight of the ceiling should be within 2.7-3.3 meters.  If high ceiling cannot be avoided, reflectors are hanged 1 m above the safelamp.  Some safelamp has filters on both surfaces suitable for providing both indirect and direct illumination simultaneously.  Allowed for every 6.5 m2 of floor space.  Lower edge of lamp should be 2.1 m above floor level.
  • 52.
    Safelamp for bothdirect and indirect illumination
  • 53.
    Safe film-handling time Maximum time for which a film can be exposed to the safelights without any appreciable degree of fogging.
  • 54.
    Safelight Test  Teststo ascertain that illumination employed is safe. Required in following circumstances:-  Darkroom is a new one.  Safelights have been changed or additions made to them.  Particular lamp is suspect as the cause of fogging.
  • 55.
    Safelight Test (cont.) A cardboard holder to take the film to be tested should be previously prepared.  The holder should be of enough size to accommodate the film.  The film selected for the test should be of the fastest speed.  The selected film is taken in a cassette to an X-ray room.  A sheet of lead is used to cover half of the cassette lengthwise.
  • 56.
  • 57.
    Safelight Tests (cont.) Other half of the film is given a slight exposure to X-rays sufficient to produce on development a density of 0 ּ8.  In the darkroom all lights are switched off.  Exposed films are more sensitive to light than films which have had no exposure.  The holder is then completely covered by a large piece of card.
  • 58.
    Safelight Tests (cont.) The holder with the film is placed on the loading bench, the film being uppermost and towards safelamp to be tested.  Switch on the safelamp(s) to be tested.  The card is withdrawn to expose a strip at the upper edge of the film for 4 minutes.  The card is withdrawn to expose another strip of film for 2minutes.  Film again completely covered with the piece of cardboard.
  • 59.
    Safelight Tests (cont.) Film is processed in darkness.  Film can be divided vertically into 4 regions.  Area A has neither been pre-exposed nor received safelight exposure.  Any density in this area is basic fog.
  • 60.
    Safelight Tests (cont.) Area B has had no X-ray exposure, has received a controlled series of increasing exposure to safelighting; this is the reaction of unexposed film.  Area C has been pre-exposed to X-ray and received safelight exposure.  Area D has pre-exposed to X-ray but received no safelight.
  • 61.
  • 62.
    Safelight Tests (cont.) Strip 6 10 seconds  Strip5 10+15= 25 sec  Strip4 10+15+30= 55 sec  Strip3 10+15+30+60=115 sec (1.9min)  Strip2 10+15+30+60+120= 235 sec (3.9min)  Strip1 10+15+30+60+120+240= 475 (7.9 min)
  • 63.
    Safelight Tests (cont.) The area is examined with densitometer.  Area D – To establish pre-exposure to X ray was 0.8.  Area A – Used for measurement of basic fog.  Area B – examined for the first density which is 0.05 above the basic fog.  As soon as such a density is found, look at the edge of flap and calculate total time of exposure.
  • 64.
    Safelight Tests (cont.) This time represents maximum safe film- handling time for unexposed film.  Similar way maximum safe film-handling for exposed film calculated.  Safe film-handling time for exposed materials will always be shorter than unexposed film.  If no such density appears, then safe for up to 8 minutes for exposed and non-exposed film.
  • 65.
    Safelight Tests (cont.) The first appearance of a density increase which is more than 0.05 above the basic fog indicates first unsafe period.  The intensity of safelighting reaching the work area must be reduced to give a longer safe period of exposure.
  • 66.
    Safelight Tests (cont.) Typical safe film-handling time averages between 20 – 45 S.
  • 67.
    Viewing Equipment  Provisionis needed for assessment of wet radiograph.  Minimum requirement is a single illuminator wall mounted above the processing unit, attached directly to wall.  Very susceptible to splashing, should be protected from rust and corrosion.  Illuminator should be operated by s pull-cord switch.
  • 68.
    Switching of lightcircuits  White-light switching arranged to reduce the possibility of it being switched on accidentally.  Light circuits are controlled separately in a ‘dry’ area of room.  Switches should be placed at a very different heights.  The switch for white-light put out of normal reach.
  • 69.
    Switching of lightcircuits (cont.)  Safelight switch might be 1.5 m from floor and the white-light switch 2 m from floor.  Recommended to have a cord-operated master control near the door of darkroom.
  • 70.
    Switching of lightcircuits (cont.)  Recommended to have a cord-operated change-over switch which give either white or safelight.  Fitting an indicating lamp, outside the darkroom door, wired in parallel with safelights and provides warning when they are in use.
  • 71.
    Darkroom Equipment andLayout  Overlap between wet and dry operations should be avoided. Well planned darkroom has following characteristics:-  Effective separation of wet and dry operations.  Orderly sequence of successive stages of work.  Neat layout of equipment.  Clear ‘traffic lanes’.
  • 72.
    Darkroom Equipment andLayout Equipments necessary to an X-ray darkroom:-  A bench upon which to unload, reload cassettes.  Apparatus in which processing is performed.  Essential accessories.  Method of processing may be manual or automatic.
  • 73.
    The Darkroom withAutomatic processing The loading bench:-  Should provide enough space.  Long enough to allow 3 or 4 of largest cassettes to be placed open.  Recommended allowance in length is 2.5 m/ operator, minimum width 600 mm.  Height should be not less than 900 mm.
  • 74.
  • 75.
    The loading bench Top of bench should be hard wood or teak.  Thick linoleum is a good choice.  Hard wearing, sound deadening and anti-static.  Will not acquire static electric charge.
  • 76.
    Automatic processors  Onlyfeed tray is of processor is kept in the darkroom.  The processed film may be collected and viewed in the viewing area.
  • 77.
    A through-the-wall positionfor automatic processor
  • 78.
  • 79.
    Film Storage  Forunexposed films immediate to use.  Stock of unexposed materials for near future. Film Hopper:-  Films intended for immediate use are kept in hopper under loading bench.  Device is a cone shaped drawer hinged at its lower edge.
  • 80.
  • 81.
  • 82.
    Film hopper (cont.) Inside should be painted black.  Has 4-5 compartments.  Provide orderly storage of films with ready access.
  • 83.
    Film hopper (cont.) Each box of film should be opened.  The contents should be unpacked and replaced in the box so that folded edge of such covering is uppermost.  The box itself is then put into the hopper, both as protection to the film and it prevents films curving under their own weight.
  • 84.
    Film hopper (cont.) Hopper must be well made and completely light-tight.  Prominent printed warning should be outside that it should not be opened in white light.  A lock enable the hopper to be left secure.  A drawer or door operated switch in series with white lights, which can be fitted to hopper.
  • 85.
    Film Storage (cont.) Drawers:- Shallow light-tight drawers should be used.  Drawers should be labelled.  Less convenient.
  • 86.
    Film Storage (cont.) Cupboards:- Intended to stock a small current supply of films for replenishment.  Their dimensions should allow the boxes to stand upright.  Vertical divisions prevent tipping sideways as the stock becomes diminished.
  • 87.
    Cassette Rack  Itis a rack which may house loaded cassettes.  Consists of number of vertical compartments of various heights.
  • 88.
  • 89.
    Cassette Hatches  Allowcassettes and film to be passed between radiographic room and processing room.  Hatches should open on to the loading bench.  Most conveniently fitted on a communicating wall when X-ray and darkroom are adjacent.  They enable the work to flow easily.
  • 90.
  • 91.
    Cassette Hatches Special features:- Light proof in structure.  Interlocking device which prevent both doors of hatch being simultaneously opened.  Must be proof against X-rays, ensured by incorporating lead.  Some may be metal in construction others made of plywood.
  • 92.
    Cassette Hatches (cont.) Distinguishing between exposed films and reloaded cassettes required.  There are 2 compartments; one being labeled ‘exposed’ and other ‘unexposed’.  Another pattern is lower horizontal compartment for exposed materials, two vertical sections for outgoing cassettes.
  • 93.
    The Darkroom witha Manually operated processor Darkroom requires additional equipments:-  Storage space for processing-hangers.  Hot and cold water supply and sink.  Storage space for packs of chemicals and mixing equipments.  Drying cabinet.
  • 94.
    Hanger Storage  Providedby wall brackets above the loading bench.  Only one type of hanger occupies any particular bracket.  Typical metal bracket projects about 230 mm from the wall, holds about 12 hangers.  End of brackets upturned to lessen the risk of hangers falling.
  • 95.
  • 96.
    Hanger Storage (cont.) A suitable height of brackets above the bench would be 750 mm.  The space between 2 brackets should be at least 360 mms.
  • 97.
    Darkroom Sink  ‘Wet’darkroom requires a general purpose sink.  Important not to place the sink in a position continuous with loading bench.  It should be along opposite walls of darkroom.  Dimensions are 750 X 450 X 250 mms.  Top of sink should not be less than 750 mm from floor.
  • 98.
    Darkroom Sink (cont.) Hot and cold water should be supplied.  The taps should be placed 400 mms apart.  Anti-splash device recommended.  Draining boards are useful.  Cupboards should be provided under or near to sink.  They are needed for the storage of equipments for cleaning.
  • 99.
    Drier  Used fordrying processed radiographs  Most of the driers work with - hot air.  Moist air exhausts from these driers.  If the unit is situated in the darkroom, a duct must be provided for air’s removal.  Films are hung in the hangers, from the slotted racks.  A drip tray is often provided beneath.
  • 100.
  • 101.
    Drier  Cabinet hasa fan for circulating the air and heater elements to warm it.  Doors should not be kept open when the heater is on.  Some units are provided with thermo-switch.  Materials used in the construction of drier are stainless steel and chemically resistant substances such as PVC.
  • 102.
    Viewing area Should befurnished with:-  Work surfaces,  Compartment and shelving for film and patient categories,  Cassette storage racks,  Viewing boxes and lobbies.
  • 103.
    Lay-out of atypical darkroom