DE202017107543U1 - A pneumatic conveyor - Google Patents

Abstract

Pipe post office (1) for a pipe network (2) existing pneumatic tube system comprising a in the pipe network (2) arranged receiving chamber (3) for a pneumatic tube carrier, characterized in that in the pipe network (2) arranged receiving chamber (3) as a with an irradiation space (5) for the pneumatic tube carrier provided with an ultraviolet radiation (4) is formed.

Description

Technical environment

The invention relates to a pneumatic tube station for a pipe network consisting of a pneumatic tube system, comprising a arranged in the pipe network receiving chamber for a pneumatic tube carrier.

State of the art

From the prior art is according to the EP 3 056 457 A1 a pneumatic tube station known for existing from a pipe network pneumatic tube system. The pneumatic tube station consists of a receiving chamber for a pneumatic tube carrier. The receiving chamber is in this case connected to the laid in the building pipe network. To operate the pneumatic tube system, the pipe network has compressors to generate an overpressure or a vacuum in the pipe network, with which the pneumatic tube carrier is sent in the pipe network. Pneumatic tube systems can be used in different areas.

This is an example of the use of a pneumatic tube system in hospitals with numerous laboratories, which are connected to each other for reasons of economic efficiency and efficiency by means of a pneumatic tube application. Very often these are connected via pneumatic tube with the individual departments of the hospital. Pneumatic tube systems consist of a large number of devices, such as stations and switches, which are connected via pipelines as well as electricity and information lines. In large plants, these pipelines are divided into several lines to achieve efficient utilization. The transfer of the sleeves or pneumatic tubes between the lines via transition units. The connection of pneumatic tube stations to laboratory systems usually takes place directly.

Such a known pneumatic tube system, which is installed in particular in hospitals and clinics, but also in nursing homes or other facilities, have disadvantages. Because the pneumatic tube dispensers sent in the pneumatic delivery system are removed or introduced from the individual stations by nursing staff or laboratory personnel. So it is certainly true that transmitted here germs, bacteria or viruses with the dispatched pneumatic tube cans quickly from one department to another department within the hospital building. This is a major source of danger, especially in clinical settings, which significantly increases the risk of infection for patients and staff.

task

The invention thus raises the problem of developing a pneumatic tube system in such a way that the described problem is eliminated.

solution

The problem is solved by a pneumatic tube station with a receiving chamber, which has in the pipe network provided with an ultraviolet radiation irradiation space for the pneumatic tube carrier. Due to this training is now achieved that the in-use pneumatic tube cans, before they are used, can be cleaned in the pneumatic tube station according to the invention. For this purpose, the pneumatic tubes used in circulation are freed of bacteria and viruses by these are killed due to the irradiation.

The pneumatic tube carrier is slowed down in the system at the compressor, stopped in the UV cleaning for a period of time that makes the germs, viruses or pests harmless, stopped and irradiated with the UV light lamp before it is sent in the pipe network. For this purpose, the pneumatic tube carrier enters a quartz glass tube of the UV cleaner and can be irradiated on the other side by the UV light. Irradiation destroys viruses and bacteria. The intensity of the required irradiation can be regulated by the number of UV tubes and the residence time of the pneumatic tube carrier in front of an impact absorber in the UV cleaner.

According to the invention it is proposed that the receiving chamber arranged in the pipe network is designed as an irradiation space provided with an ultraviolet radiation for the pneumatic tube carrier. The irradiation chamber here comprises the quartz glass chamber. The chamber consists of a quartz glass tube, which surrounds the pneumatic tube carrier during the irradiation process. Arranged around the quartz glass tube are radially distributed UV light tubes, which provide the required irradiation.

According to an advantageous embodiment of the invention, the receiving station comprising pneumatic tube station comprises a stainless steel housing in which the UV light tubes are arranged with the quartz glass tube. As such, the receiving chamber is provided with an impact damper for the pneumatic tube carrier, so that when retracting the pneumatic tube carrier it is cushioned by the impact absorber. The impact catcher holds the pneumatic tube in the chamber in the appropriate position in which an effective UV irradiation takes place, which ensures the adequate cleaning of viruses and bacteria.

According to a particularly advantageous embodiment of the invention, the pneumatic tube station is provided in the pipe network with an air bypass for charging and emptying the pneumatic tube station. The air bypass is in this case controllable by means of valves so that on the one hand a suction effect into the chamber but also a positive pressure in the chamber can be introduced, so that the air can also flow from the back so that the pneumatic tube liner leaves the pneumatic tube station again.

According to a particularly advantageous embodiment, the pneumatic tube station cooperates with a control device which regulates the residence time and the intensity of the irradiation for the pneumatic tube carrier.

list of figures

• 1 eine schematische Darstellung der Rohrpoststation gemäß der Erfindung in Seitenansicht,
• 2 eine geschnittene Stirnansicht der Rohrpoststation gemäß der 1 und
• 3 eine geschnittene Seitenansicht der Rohrpoststation gemäß der 1.

An embodiment of the invention is shown purely schematically in the drawings and will be described in more detail below. It shows

• 1 a schematic representation of the pneumatic tube station according to the invention in side view,
• 2 a sectional front view of the pneumatic tube station according to the 1 and
• 3 a sectional side view of the pneumatic tube station according to the 1 ,

embodiments

The 1 . 2 and 3 show in different views a pneumatic tube station 1 for one out of a pipe network 2 existing pneumatic tube system, which one in the pipe network 2 arranged receiving chamber 3 for a pneumatic tube carrier, which is not shown here.

Here is the receiving chamber 3 in the pipe network 2 as one with ultraviolet radiation 4 provided irradiation room 5 designed for the pneumatic tube carrier. This is in the 2 and 3 to see more closely, where in the sectional representations, in particular the chamber portion can be seen, in which the pneumatic tube carrier, not shown, is irradiated during their residence time. This includes the irradiation room 5 a quartz glass chamber made of a quartz glass tube 6 consists. The quartz glass tube 6 surrounds the pneumatic tube carrier during the irradiation process. Around the quartz glass tube 6 are radially distributed UV light tubes 7 arranged as these in synopsis of 2 and 3 are shown in more detail.

Like from the 1 can be seen, which comprises the receiving chamber 3 comprehensive pneumatic post office 1 a stainless steel case 8th in which the UV light tubes 7 with the quartz glass tube 6 are arranged.

As in particular from the 3 it can be seen, is the receiving chamber 3 and here the quartz glass tube 6 with a muffler 9 provided for the pneumatic tube carrier. This ensures the exact positioning of the pneumatic tube carrier for the irradiation process in the retracted state.

Like from the 1 can be seen, acts with the pipe network 2 a compressor 10 together, who in particular ensures that a certain air flow or suction in the pipe network 2 is present, which is used for the transport of the individual pneumatic tubes. This is especially true in the recording room 3 a muffler 9 provided, which is intended that in particular the pneumatic tube carrier when entering the chamber or in the irradiation room 5 is accurately positioned for cleaning.

If the pneumatic tube carrier stays in the irradiation room for a certain time, then the pneumatic tube station is located 1 in the pipe network 2 with an air bypass 11 provided by means of the emptying or the loading of the pneumatic tube carrier into the irradiation room 5 he follows. In development of the invention, the pneumatic tube station acts 1 with a control device which regulates the residence time and the intensity of the irradiation for the pneumatic tube carrier.

LIST OF REFERENCE NUMBERS

1

A pneumatic conveyor

2

pipe network

3

receiving chamber

4

UV radiation

5

treatment room

6

quartz glass tube

7

UV light tubes

8th

stainless steel case

9

impact absorbers

10

compressor

11

air bypass

QUOTES INCLUDE IN THE DESCRIPTION

This list of the documents listed by the applicant has been generated automatically and is included solely for the better information of the reader. The list is not part of the German patent or utility model application. The DPMA assumes no liability for any errors or omissions.

Cited patent literature

• EP 3056457 A1 [0002]

Claims (8)

A pneumatic conveyor (1) for one of a pipe network (2) existing pneumatic tube system, arranged comprising in the tube net (2) accommodation chamber (3) for a pneumatic-post capsule characterized in that in the pipe network (2) arranged in the receiving chamber (3) as a with an irradiation space (5) for the pneumatic tube carrier provided with an ultraviolet radiation (4) is formed. Post office post office Claim 1 , characterized in that the irradiation space (5) comprises a chamber made of quartz glass. Post office post office Claim 1 and 2 , characterized in that the chamber consists of a quartz glass tube (6), which surrounds the pneumatic tube carrier during the irradiation process. Pneumatic tube post to the Claims 1 to 3 , characterized in that around the quartz glass tube (6) distributed UV light tubes (7) are arranged. Pneumatic tube post to the Claims 1 to 4 , characterized in that the receiving station (3) comprising pneumatic tube station (1) comprises a stainless steel housing (8), in which the UV light tubes (7) with the quartz glass tube (6) are arranged. Pneumatic tube post to the Claims 1 to 5 , characterized in that the receiving chamber (3) is provided with an impact damper (9) for the pneumatic tube carrier Pneumatic tube post to the Claims 1 to 6 , characterized in that the pneumatic tube station (1) in the pipe network (2) with an air bypass (11) for charging and emptying the pneumatic tube station (1) is provided. Pneumatic tube post to the Claims 1 to 7 , characterized in that the pneumatic tube station (1) cooperates with a control device which regulates the residence time and the intensity of the irradiation.

Images