AT524076B1 - Device with agents for disinfecting pneumatic tube tubes - Google Patents

Abstract

In known devices with means for disinfecting pneumatic tube tubes with a housing (6) which has a connection (15) for a travel tube (1), the problem arises that the holder for the pneumatic tube tube partially covers it so that it is in these places is not disinfected. According to the invention, inside the housing (6) there are e.g. 1) tapered away. The circumference of the inside of the retaining rods (5) on the side facing the connection (15) for the travel pipe (1) is larger than the diameter of the travel pipe (1), and their circumference on the side facing away from this connection (15) is less than the diameter of the driving tube (1). Also provided inside the housing (6) is a sliding sleeve (10) which can be slid telescopically over an extension (7) of the travel tube (1) or into it and which can be slid in the opposite direction into the truncated cone shell.

Description

Description

The present invention relates to a device with means for disinfecting pneumatic tube tubes, in particular by means of UVC rays, with a housing having a connection for a driving tube.

Such a device is known from US 2015/0246152 A1, Fig. 8. The pneumatic tube runs through the tube into the housing and is gripped there by rollers that rotate and open the pneumatic tube about its longitudinal axis. Then the tube is irradiated with UVC light sources. According to this document, the pneumatic tube tube leaves the device through a further travel tube, which is provided opposite the first travel tube and coaxially with it, so it is a transit station. It is not described how the tube is transported inside the housing in the longitudinal direction. This is not possible with over/under pressure as in the tube, because the air in the housing flows around the outside of the tube. A mechanism is therefore necessary to transport the pneumatic tube, and this mechanism causes the UVC rays to be blocked, so that the pneumatic tube cannot be completely disinfected.

It is an object of the present invention to design a device of the type mentioned in such a way that it has a mechanically simple structure, ie in particular contains few moving parts, and yet the pneumatic tube tube is disinfected as far as possible without shadowing.

This object is achieved according to the invention by a device of the type mentioned in that at least three, preferably six, holding rods are provided inside the housing, the insides of which are generatrices of a truncated cone shell, the axis of which is coaxial with the driving tube and which is tapered away from the connection of the tube, the circumference of the inside of the support rods on the side facing the connection for the tube being larger than the diameter of the tube and the circumference of which on the side facing away from the connection for the tube is smaller than the diameter of the tube , and that a sliding sleeve is provided inside the housing, which can be pushed telescopically over an extension of the travel tube or can be pushed into it and which can be pushed in the opposite direction into the truncated cone shell.

The inventive idea of this solution is as follows:

You push the sliding sleeve in the direction of the support rods before a pneumatic tube sleeve enters the device. When a pneumatic tube tube arrives, the air flow in the tube is throttled in the usual way so that the tube slowly retracts. It first comes out of the sliding sleeve with the front sleeve head, the rear sleeve head remains in the driving tube, in its extension or in the sliding sleeve until the front sleeve head clamps firmly in the connecting rods. The sliding sleeve can now be moved in the direction of the travel tube, ie away from the support rods, and the pneumatic tube tube remains in position as a result of the clamping effect of the support rods. Now the entire tube is exposed, with the exception of the contact points of the front tube head, more precisely its sliding ring, with the support rods.

[0007] If LED modules for emitting UVC rays are now provided between the rods or nozzles for spraying disinfectant are provided between the rods, the entire sleeve can be disinfected (except for the contact points with the support rods). In any case, both end faces, which are very often exposed to contact during manual manipulation of the pneumatic tube sleeve, are freely accessible and are reliably disinfected, and the rear sleeve head is disinfected in its entirety. In the device according to the invention, no damper is necessary, which acts on the front face of the tube and stops it, because this task is performed by the support rods.

If you also want to completely disinfect the front sleeve head, you can start the disinfection as soon as this sleeve head has left the sliding sleeve, ie before it is clamped in the holding rods. In any case, with vertical mounting, the front sleeve head does not touch any of the support rods at this point. For this purpose, according to a design

tion of the invention, a tube switch is provided which turns on the agent for disinfection when an incoming pneumatic tube tube is received.

So that the sleeve can be sucked away or blown away again, the sliding sleeve is moved in the direction of the retaining rods until it surrounds the first sliding ring and thus interrupts the bypass air flow. Now the sleeve can be transported away normally with compressed air/suction air.

If an indicator lamp is provided on the outside of the housing or outside of the housing for each LED module, which is connected in series to the respective LED module, you can see not only when the device is in operation, i.e. just a disinfection carried out, but also whether an LED module is defective. This indicator lamp can be another LED that emits visible light.

The present invention will be explained in more detail with reference to the accompanying drawings. It shows:

1 shows a cross section through a device according to the invention with a pneumatic tube sleeve, the section running through the front sliding ring of the pneumatic tube tube;

Figure 2 shows a section along the line II-II of Figure 1 with the sliding sleeve in the arrival/departure position;

[0014] FIG. 3 shows the same with the sliding sleeve in the disinfection position; and

[0015] FIG. 4 shows a section along the line IV-IV in FIG. 1 with the sliding sleeve in the disinfection position.

The device according to the invention has a housing 6 (see FIG. 2), which is closed off at the two end faces by plates 8, 9. The plate 8 has an opening that serves as a connection 15 for a travel tube 1 . An extension 7 of the travel tube 1 is inserted in this connection 15 opposite this travel tube 1 . This extension 7 is surrounded by a sliding sleeve 10 (see also Fig. 3) which can be displaced from an arrival/departure position (see Fig. 2) to a disinfection position (see Fig. 3). The length of the sliding sleeve 10 essentially corresponds to the length of the extension 7, so that the sliding sleeve 10 hardly protrudes beyond the extension 7 in the disinfection position. To move the sliding sleeve 10, it is provided with a toothed rack 11 into which a motor-driven gear wheel 12 engages.

The plate 9 has air openings 13, and these open into an air connection piece 2, so that air can be circulated as is usual in pneumatic tube systems: a pump pumps air into the driving tube 1, which passes through the extension 7 into the airtight version Housing 6 and from there through the air openings 13 into the air connection piece 2, from where it is fed back to the pump.

Inside the housing 6, six support rods 5 are provided, which are arranged evenly distributed on a circle in cross section (see FIG. 1). As can be seen in the longitudinal sections of FIGS. 2 and 3, the inner sides of the support rods 5 converge from the left (i.e. from the connection 15) to the right (i.e. towards the air connection piece 2), the inner sides are thus spatially seen on the generatrices of a truncated cone shell .

As can be seen from FIG. 1 in conjunction with FIG. 4, there are 5 LED modules 14 between the support rods, which can be designed in particular as flex strips. For example, the LED chips STSN-30UVC3535 from Shenzhen Suntech Co., Ltd are suitable, which emit UVC radiation in the wavelength range of 265-278 nm with a radiant flux of 150 mW/m in a beam angle of 120°.

The device according to the invention works as follows:

Before a tube 4 arrives, the sliding sleeve 10 is moved to the arrival/departure position, ie to the right. As soon as the pneumatic tube 4 passes a tube switch 3, the LED modules 14 are switched on and the air flow through the travel tube 1 and the air connection piece 2 is reduced, so that the pneumatic tube 4 is slowed down. the pneumatic tube

sleeve 4 now slowly comes out of the sliding sleeve 10 with its front sleeve head and is disinfected by the UVC radiation of the LED modules 14. The reduced air flow moves the pneumatic tube sleeve 4 further to the right, since the rear sleeve head still prevents the air from flowing unhindered from the tube 1 into the housing 6 . This goes on until the pneumatic tube sleeve 4 is gently mechanically braked in the tapered support rods 5 and pressed against them. This situation is shown in FIG.

Now the sliding sleeve 10 is brought into the disinfection position, that is, moved to the left so that it surrounds the extension 7 . This situation is shown in FIG. The pneumatic tube sleeve 4 is now "floating" held by the support rods 5, centered axially to the axis of the travel tube 1. This is independent of whether the device is installed horizontally or vertically.

As you can see, the entire tube 4 is freely accessible. This also applies in particular to the rear sleeve head, since the sliding sleeve 10 was moved away to the left. The only exception is the contact points between the support rods 5 and the sliding ring on the front sleeve head. The entire pneumatic tube sleeve 4 is thus disinfected by the UVC radiation, because the front sleeve head has already been disinfected during retraction of the pneumatic tube sleeve 4--as mentioned above. In particular, the two end faces of the tube 4 can be completely disinfected. After a specified irradiation period, the LED modules 14 are switched off.

Now the sliding sleeve 10 is moved back to the right into the arrival/departure position, so that the slip ring on the rear sleeve head prevents an unimpeded flow of air from the driving tube 1 into the housing 6 or in the opposite direction. This situation again corresponds to the position shown in FIG. The air flow is now reversed, i.e. air flows into the air connection piece 2 and is sucked out of the driving tube 1. Thus, the pneumatic tube sleeve 4 is sucked or blown into the travel tube 1 . With a sufficiently long extension 7 or sliding sleeve 10, pneumatic tube tubes 4 of different lengths can be used and safely sucked out of the device.

The device according to the invention requires only a single moving part (the sliding sleeve 10), is therefore inexpensive to manufacture and less prone to failure.

Claims (5)

patent claims 1. Device with means for disinfecting pneumatic tube tubes, in particular by means of UVG rays, with a housing (6) which has a connection (15) for a driving tube (1), characterized in that inside the housing (6) at least three, preferably six, holding rods (5) are provided, the insides of which are generatrices of a truncated cone shell, the axis of which is coaxial with the driving tube (1) and which tapers away from the connection (15) of the driving tube (1), the circumference of the inside of the holding rods (5) on the side facing the connection (15) for the travel tube (1) is larger than the diameter of the travel tube (1) and its circumference on the side facing away from the connection (15) for the travel tube (1) is smaller than the diameter of the travel tube (1), and that inside the housing (6) there is a sliding sleeve (10) which can be slid telescopically over an extension (7) of the travel tube (1) or pushed into it and which in the opposite direction to can be pushed into the truncated cone shell. 2. The device as claimed in claim 1, characterized in that LED modules (14), in particular flex strips, for emitting UVG rays are provided as means for disinfection between the holding rods (5). 3. Device according to claim 1 or 2, characterized in that nozzles for spraying disinfectant are provided as means for disinfection between the holding rods (5). 4. Device according to one of claims 1 to 3, characterized in that a tube switch (3) is provided, which turns on the means for disinfection when an incoming pneumatic tube tube (4). 5. The device according to claim 2 and optionally 3 or 4, characterized in that the outside of the housing (6) or outside of the housing (6) for each LED module (14) is provided an indicator lamp in series with the respective LED module is switched on. 2 sheets of drawings