BE1023363B1 - CONNECTION AND CLOSING SYSTEM OF BREATH BALK CUP ON RESPIRATORY SYSTEM - Google Patents

Abstract

The invention relates to the connection of a soda lime cup [10] to a ventilation system of a medical device for the purpose of ventilating patients without re-inhalation of exhaled CO 2. The soda lime cup [10] is pushed with the top [14] into the keep [7] from the front. The closing mouth [7] is pulled inwards by turning the handle [18] forwards. When the lever [18] of the closure is forward parallel to the handle of the cup [13], the closure [Figure 3, 6] is complete.

Description

Connection and closing system of breathing lime cup to breathing system

[1] USER DOMAIN

The invention relates to the connection of a breathing lime cup [10] to a respiratory system of a medical device for the purpose of ventilating patients without re-inhaling exhaled CO2.

[2] SHORT PRODUCT DESCRIPTION

The invention relates to a connecting system [Figure 1] for a breathing lime cup [10] on a respiratory system. The connection system is based on an airtight connection between the respiratory cup [10] and the respiratory system. The respiratory cup [10] contains an inner channel [11] and an external channel [12] for transferring the respiratory gases from the ventilation system to the respiratory cup and from the respiratory cup to the ventilation system. The breathing lime cup [10] contains the breathing lime that chemically binds the carbon dioxide, allowing recycled breathing gases to go carbon-free to the patient again.

The airtight connections [Figure 3] are realized by means of circular, flexible washers [4, 5] along the connection side of the end piece [1]. These flexible washers comprise the circular ends [8, 9] of the inner and outer channel of the breathing lime cup [10].

Carbon dioxide-rich ventilation gas enters the connection system [Figure 1] along the supply channel [3], after which it enters the inner channel [11] of the breathing lime cup [10] thanks to the opened valve [Figure 3]. Subsequently, the carbon dioxide-rich ventilation gas passes through the outer channel [12] of the breathing lime cup [10] where breathing lime filters the ventilation gas by chemically binding the carbon dioxide gas. The filtered respiration gas then enters the outlet channel [2] of the connection system [Figure 1] via the end of the cup [8] and the opened valve [Figure 3], after which it proceeds further into the ventilation system towards the patient.

[3] PROBLEM SETTING

Breathing lime is a consumable item that must be regularly replaced before the lime pellets are completely saturated (discolored) and the carbon dioxide can no longer be filtered from the breathing gases. The breathing lime cup [10] must therefore be detachable from the ventilation system and be opened to be able to replace the granules.

Some respiratory systems do not provide a bypass valve [14] that automatically closes the respiratory system when removing the respiratory cup [10]. The problem that arises here is that the breathing lime cup [10] can only be removed when the ventilation system is not in use. This means that a calculated estimate must be made to determine when the breathing lime should be replaced, even if the breathing lime is not yet completely saturated. After all, without a bypass, the breathing lime cup cannot be disconnected during an operation.

[4] EXISTING SOLUTIONS

An existing solution is that an adapter piece with bypass valve is mounted separately on the ventilation system. This makes it possible to disconnect the pre-filled respiratory cup from the ventilation system during ventilation to install a new, already-filled disposable cup in its place. The disadvantage of this is, however, that this system is only intended for pre-filled breathing cups and not for refillable breathing cups. The reusable cups, however, are cheaper, not only in terms of cost but also in terms of impact on the environment.

[5] SOLUTION ACCORDING TO THE INVENTION

The invention relates to a connection system [Figure 1] for both a reusable and a one-time breathing lime cup [10] on a respiration system. The connection system is based on an airtight connection between the respiratory cup [10] and the respiratory system.

The breathing lime cup [10] is slid into the end piece from the front. The mouthpiece [Figure 1] of the breathing lime cup [10] comprises a protruding ring [15] with a diameter of 90 mm and a flattened left and right side [Figure 4]. The distance between the flattened sides is 84 mm, so that the mouthpiece fits exactly between the gripping hooks [6, 7] of the end piece, between which the opening is 84.2 mm.

The airtight connections [Figure 3] are realized by means of circular, flexible washers [4, 5] along the connection side of the end piece [1]. These flexible washers comprise the circular ends [8, 9] of the inner and outer channel of the breathing limb cup [10] when the closing mouth of the breathing limb cup [10] is pulled inwards upwards by the lateral handle [18] with a circular movement 90 rotate degrees forward until it is right above the lateral handle [13] of the breathing bowl [10].

The outer flexible washer [4] with an outer diameter of 66 mm connects the washer to the outer channel [8] of the breathing limb cup [10] by pressing the washer [4] against the outer ring of the nozzle [17] with an internal diameter of 68 mm . The inner flexible washer [5] with an outer diameter of 40 mm connects the washer to the inner channel [9] of the breathing lime cup [10] by pressing the washer [5] against the inner ring of the nozzle [16] with an internal diameter of 42 mm .

[8] EXPLANATION OF THE DRAWINGS

Figure 1 - Front end piece and top of breathing lime cup Figure 2 - Front end piece in open position Figure 3 - Front end piece in closed state Figure 4 - Top of breathing lime cup Figure 5 - Opened closing system with breathing lime cup Figure 6 - Closed closing system with breathing lime cup

Claims (2)

[6] CONCLUSIONS A mounting system for mounting a breathing lime cup [10], both reusable and disposable, on the respiration system of a medical device, characterized in that the breathing lime cup [10] with the top [14] is slid into the cap [7] from the front side, after which the closing mouth [7] is pulled inwards by means of a lateral handle [18] which is turned towards the front of the connection [Figure 6], and characterized in that the closing piece [7] is a bypass valve, which allows to remove the respiratory cup [10] during ventilation to replace the respiratory limb without causing a significant leak in the respiratory system.