US2257394A

US2257394A - Film drying machine

Info

Publication number: US2257394A
Application number: US333479A
Authority: US
Inventors: Niersbach Milton
Original assignee: Individual
Current assignee: Individual
Priority date: 1940-05-06
Filing date: 1940-05-06
Publication date: 1941-09-30
Anticipated expiration: 1958-09-30

Description

Sept- 0 1941- M. NIERSBACH 2,257,394

FILM DRYING MACHINE Filed May 6, 1940 2 Sheets-Sheet 1 INVEN TOR.

ATTORNEY Sept. 30, 1941. M. NIERSBACH 2,257,394

FILM DRYING MACHINE I Filed May 6, 1940 2 Sheets-Sheet 2 Fia-L- a; IgVFNTOR. 95M.

ATTORNEY l-lof Patented Sept. 30, 1941 UNITED STATES PATENT OFFICE Application May a, 1940, Serial No. 233,419

3 Claims. (01. 34-23:)

This invention relates to improvements in film drying machines, and more particularly to apparatus having a novel construction capable of rapidly drying developed film or photographic plates without danger of damaging the same. 7

'An object of my invention is to provide an improved mm drying machine embodying novel improved machine of the character described,

having novel thermostatic means for controlling the temperature ofthe moving air directed upon the mm which is being treated, whereby damage from excessive heat may be eliminated.

Other and further objects of my invention will be pointed out hereinafter, or will be indicated in the appended claims, or will be OViOlls to one skilled in the art upon an'understanding of the present disclosure. For the purpose of this application I have elected to show herein certain forms and details of a film drying machine representative of my invention. It is to be understood, however, that the embodiment of my invention herein shown'and described is for the purpose of illustration only, and that therefore it is not to be regarded as exhaustive of the variations of the-invention; nor is it to be given an interpretation such as might have the effect of limiting the'claims short of the true and most comprehensive scope of the invention in the art. In the accompanying drawings: Fig. 1 is a perspective view of a film drying machine embodying my invention.

Fig. 2 is a vertical sectional view of the same; mg. 3 is a sectional view taken on the line 3-3 of Fig. 2;

Fig. 4 is a sectional view taken on the line Fi 2; and Fig. 5 is a wiring diagram of the electrical circuit constituting a part of my invention.

Referring to the drawings, the numeral I designates a suitably shaped and p portioned cabinet having a hinged lid '1, an air inlet opening 3 in its front side, and air outlet openings 4 in its front and lateral walls. The lidis preferably provided with a suitable handle I for opening and closing the same, and if desired,

'meansofthecustomarykindmaybeusedtoprevent the lid from being swung in an upward direction beyond a certain position. Mounted on a side of the cabinet I is an electrical switch I for enclosure.

opening and closing the circuit leading from a source of electrical energy to a fan, a heating unit and a thermostat.

Extending rearwardly from the air inlet open ing 3 is an air duct i having its rear end connected to an upwardly disposed air duct 1 which is provided at its. upper end with a discharge manifold 8. The manifold l is suitably secured at its discharge end to the rear wall of an outer enclosure 9, preferably of rectangular cross sectional shape. Air from the manifold is discharged into the outer enclosure through an elongated horizontal slot or opening l0 provided in its rear walL-and an angular deflector H supported on the rear wall of an inner enclosure I2 is positioned within the said opening in such a manner that the air discharged from the manifold is horizontally divided as it passes into the outer enclosure, and is thereby directed upwardly and downwardly as indicated by the arrows in Fig. 2.

- The inner enclosure I2 is of approximately the same height as the outer enclosure 9 and their cross sectional shapes are preferably the same, but the innerenclosure is somewhat smaller with respect to its lateral dimensions than the outer The inner and outer enclosures are concentrically positioned with respect to each other, thereby providing a four-sided intervening air space or channel l3 between the walls of the two enclosures. The space It is closed at its upper and lower ends by rectangular members It secured to the upper and lower ends of the inner and outer enclosures. The walls of the inner enclosureare providedwith perforations I! of varying size forthe passage from the intervening space ll of air into the said inner enclosure. The upper and lower ends of the inner enclosure are open so as to permit the air entering the same to freely circulate throughout its interior and thereafter pass from the said open ends into the area of the cabinet located outside the outer enclosure, from whence it escapes through the discharge openings 4. The perforations I! in the walls of the inner enclosure II are graduated in size seat to cause air under pressure to enter at all four sides. The smallest of the perforations are located in the rearwall; the largest of the perforations are located in the front wall; and the medium size perforations are located in the intervening side walls. Thus by having the perforations of the various walls increase in size from the rear to the front in proportion to the decrease in the pressure of the air as the front area of the space ll is approached, the air pressure of the air entering the enclosure l2 at its four sides is substantially uniform.

A suitable supporting structure It is provided a in the cabinet for maintaining the various parts of the device in their respective positions. The outer enclosure 9 is mounted on the supporting structure i6 and the walls of the cabinet I as by angle irons l1, and the inner enclosure i2 is held in place by the rectangular members H which are secured to the opposite ends of the said enclosures.

Mounted in the air duct 6 in front of an. electricfii heating unit I8. is an electric fan l9 which is capable of drawing air into the said duct through the inlet opening 3 and propelling it past the heating unit with sufficient pressure to insure its reaching the interior of the inner enclosure H with an appreciable unspent force. A motor 20 for actuating the fan, the heating unit l8, and a thermostatically controlled switch at are electricallyconnected in the electric circuit which is controlled by the switch 5. When the circuit is closed by the switch 5, the motor 20 is energized and the fan causes a circulation of air through the ducts 6 and I, through the intervening space l3, through the perforations l in the walls of the inner enclosure l2, through and out the open ends of the latter, and thence through the outlet openings 4 in the cabinet. The therthrough the inner enclosure may be automatically controlled. The air, when subjected to heat generated by the heating unit ll, becomes sufficiently dry to readily absorb moisture. The dry and warm air, upon contacting the moist film,

plates or sheets 22 suspended in the inner enclosure [2 by means of cross rods 23 and frames 24, readily dries the same. The cross rods '23 are preferably supported in spaced relationship by grooved members 25 positioned adjacent the open upper end of the inner enclosure It. If preferred, the film, sheets or other material to be treated, may be suspended in the inner enclosure by any suitable means other than that herein described. Y

Having described my invention, what I claim is:

1. In apparatus of the kind described, an inner enclosure of rectangular cross sectional shape having a plurality of air inlet holes in each of its sides, and its top end open for the passage of air from its interior, the said inner enclosure having its walls positioned vertically, an outer enclosure of rectangular cross sectional shape having air inlet means in oneof its sides, thesaid outer enclosure being positioned around the inner enclosure with its side walls in spaced relation to the side walls of the inner. enclosure so as to provide an air channel encircling the inner enclosure, the said air channel being closed at its top and bottom, means for supporting material to be treated in the inner enclosure, an enclosing cabinet within which the enclosures are housed, air inlet and air outlet means in the walls of the cabinet, closure means normally closing the upper end of the cabinet, an air duct leading from the air inlet of the cabinet to the air inlet means of the outer enclosure, a. fan for discharging air under pressure through the air duct to the air channel, whereby air under pressure may be forced into the inner enclosure for the treatment of the material supported therein, an electric heater in the air duct for heating the air discharged therethrough, and a thermostatic control means positioned in the air circulating system and electrically connected in the circuit of the electric heater, whereby the flow of electrical energy to the heater may be automatically controlled in accordance with the temperature changes of the air circulated through the inner enclosure.

2. In apparatus of the kind described, an inner enclosure having at least one of its opposite ends I open and its walls perforated to admit air to its interior, means for supporting material tobe treated inside the inner enclosure, an outer enclosure disposed laterally around the inner enclosure and spaced therefrom toprovide an air channel encircling the inner enclosure, the said air channel being closed at its opposite ends, an enclosing cabinet in which the enclosures are housed having air. inlet and air outlet means, closure means in the cabinet located adjacent an open end of the inner enclosure, an air duct connecting the air inlet means of the cabinet with the air channel, air heating means in the air duct, and means in the air duct for forcing. air under pressure into the air channel, whereby said air may be circulated through the interior ofthe inner enclosure to treat the material supported therein.

3. In apparatus of the kind described, an inner enclosure having its top end open and its walls perforated to admit air to its interior, means at the top of the inner enclosure forsupporting material to be treated inside the enclosure, an outer enclosure disposed laterally around the inner enclosure and spaced therefrom to provide an air channel encircling the inner enclosure, the said air channel being closed at its upper and lower ends, an air enclosing cabinet in which the enclosures are housed having air inlet and air outlet means, and an opening in its upper side, a closure for the opening in the cabinet, an air duct connecting the air inlet meansof the cabinet with the air channel, electrically operated means in the air duct for forcing air under pressurethrough the duct and into the air channel,

whereby said air may be circulated through the i an electrical circuit, and an electrical thermostatic control means positioned in the air cirinterior of the inner enclosure to treat the material supported therein, an electrical heating element positioned in the air duct and connected in culating system near the inner enclosure and con-.