US256495A

US256495A - Inhaler

Info

Publication number: US256495A
Authority: US
Publication date: 1882-04-18
Anticipated expiration: 1899-04-18

Description

I(No Model.)

J. H. NELSON.

- INHALBR. No. 258,495. Patented Apr.18,1888.

Wi Znsses, lmaaar W (SLayrw Y r (Ec/Vezaw. .Br Nauw/WMM IINrrED 'STATES PATENT OFFICE.

JOHN H. NELSON, OF NORTH EAST, PENNSYLVANIA.

INHALER.

SPECIFICATION forming part of Letters PatentlNo. 256,495, dated April 18, 1882,

l Application tiled October 14, 1881. (No model.) n

To coll whom it may concern:

Be it known that I, JOHN H.'NELsoN,aciti zen of the United States, residing at North East,in the county of Erie and State ot' Pennsylvania, have invented new and useful Improvements in Inhalers, and I do hereby de. clare that the following is a full, clear, and exact description thereof, reference being had to the accompanying drawings and the letters or tigures of reference marked thereon.

My invention relates to the construction and operation of devices used for inhaling gases'or medicated air, which devices are known as inhalers.77 A

My invention consists in improvements in the construction of said devices, which improvements will fully appear in the following general description and claims..

My invention is shown in the accompanying drawings, as follows:

Figure 1. is a perspective view. Fig. 2 is a longitudinal section, the iiexible face-piece A being removed. Fig. 3 is a like view with the position of parts changed to show operation.

The parts are designated by letters ot' reference, as follows:

A is the iiexible face-piece. F is the tie-Xiblehoseconnectingwith thereservoir. Neither of these parts uor their manner of attachment forms any part of my invention, and therefore requires no description.

B is the body of the device. O is a movable sleeve. D is the eXhalation-escape-valve cage; Il, its contained valve; h, its valve-seat. E is a sleeve slipping into the body, and carries atits inner end avalve-seat for the inhalation-valve G. I is a thumb-screw, which forms a in ger-pull on the outside, but extends across` the tube, forming abrid ge or rest for the spring S. s is the bearing of the spring at its opposite end from I. y

The construction and operation of my device are as follows:

The tubes B, C, and E are made of metal, hard rubber, or any proper substance. The tube B is made with an opening, d, to communicate with the cage, which opening may be called the eXhalation-port.7 On the opposite side of the tube from this port is a slot, fi, for the passage ot' the screw I. The tube O is sufficiently large to slide easily but snugly on the tube B. To this, or forming a part of it,

is attached the cage D, or that part containi ing the eXhalation-valve. The Ytube E slips insidethe tube B and screws fast. Its inner end serves as a valve-seat for the inhalationvalve G.

' S is an ordinary spiral spring.

The parts are put together in the following manner: The spring S is put into the tube B and seats itselt' against the bridge s. The sleeve O is tben'slipped on and the screw I is inserted and holds the tubes Gand B together and the spring S in place. Tbevalve G is then dropped in and the tube E inserted after it. The valve H is then laid onto the seat h and the cage D is screwed on.` The iie'xible tube F slips inside the tube E and the facepiece A slips on over the tube B until it comes in contact with the rib b. When thus put to gether the spring S will keep the parts in the position shown in Fig. 2, where it will be seen that the valve G is kept shut bythe spring pressing the bridge I against it.

The operation is as follows The face-piece is placed in proper position upon the face of the patient. To do this the operators bestpositiou is by the side and a little back of the patient. The inhaler should be so held in the hand that the cage D and the screw I will serve as iinger-rests. The hand should only be in contact with the sleeve C and the screw and cage. The face-piece A being in place, a slight pressure against the face of the patient, exerted bythe hand holding the inhaler, as described, will open the inhalation valve G and the gas to be inhaled will pass in the direction shown by full-line arrows in Fig. 3. The exbalations of the patient will close the valve G and pass, as shown by 'dotted-line arrows in Fig. 3. The moment the instrument is removed from the face ot' the patient the spring S will close the valve G. The utilization of the pressure which is in all cases necessary in order to cause the face-piece to it snug upon the face of the pat-ientand to open the valve G, so as to avoid the use and the necessity of operating any other apparatus, I consider a very useful contrivance. It enables the operator to have easy and complete control of the IOO which is adapted to slide upon the tube when the face-piece is pressed against the face, substantially in the manner set forth.

2. The combination, substantially as shown, with the face-piece of an inhaling apparatus, of the tube B, sleeve C, spring S, and valve G, arranged in substantially the relations and for the purposes mentioned.

The combination, with the face-piece ot' 2o an inhaling apparatus, of the tube B, spring S, and valve G, with the sleeve C, having,r thereon the exbalation valve H and a bearing -for the spring S, substantially as and for the purposes mentioned. 25 4. The combination, with the face-piece of an inhaling apparatus, of the tubes B and E, the valve G, bar or bridge I, spring S, and sleeve G, substantially as and for the purposes mentioned. 3 In testimony that I claim the foregoing I have hereunto set my hand this 21st day of September, 1881.

JOHN H. NELSON.

Witnesses J No. K. HALLooK, F.,B. WHIPPLE.