JP2019089615A - Pneumatic tube device - Google Patents

Abstract

To provide a pneumatic tube device which notifies a receiving station in advance of what kind of article is being sent.SOLUTION: A pneumatic tube device 100 includes: a pneumatic tube 101 arranged from a sending station 110 to a receiving station 120; and a pneumatic carrier 10 constituted of at least a cylindrical capsule 11 for accommodating an article, and a slide body 12 arranged at both ends of the capsule 11 and sliding in contact with an inner wall of the pneumatic tube 101. The pneumatic carrier 10 comprises dispatch means 20 for dispatching light or sound indicating a kind of the article accommodated in the capsule 11. The receiving station 120 comprises recognition means 150 for receiving the light or sound dispatched by the dispatch means 20, and recognizing the kind of the article accommodated in the capsule 11.SELECTED DRAWING: Figure 2

Description

  The present invention comprises an air tube disposed from a transmitting station to a receiving station, a cylindrical capsule for containing an article, and a sliding member disposed at both ends of the capsule and in contact with the inner wall of the air tube and sliding. And an air tube comprising at least an air transmitter.

  Insert a capsule-like air carrier containing articles (medical chart, slips, parts, etc.) into the air tube arranged from the transmitting station to the receiving station, and by the air pressure difference between the upstream side and the downstream side of the air carrier The pneumatic piping system to be transported is known and used in hospitals, factories, etc.

  The pneumatic connector comprises a cylindrical main body (capsule) for containing articles, and a guide ring which is fixed at the front and back of the main body and slidably contacts the inner wall of the pneumatic tube for sliding contact. The air can be moved within the pneumatic conduit (see, for example, Patent Documents 1 to 3).

Patent No. 3423838 gazette JP-A-55-026174 Unexamined-Japanese-Patent No. 10-265042 gazette

  However, at the receiving station, the contents can not be found until the contents are removed from the body (capsule) of the air transport child, and it is not possible to prepare in advance in response to the goods to be sent. is there. In the medical field in particular, it is too late to be able to respond promptly, which is a big problem.

  SUMMARY OF THE INVENTION It is an object of the present invention made in view of the above-mentioned fact is to provide an air pipe apparatus which can be prepared in advance in response to an article to be sent at a receiving station.

  The present invention provides the following pneumatic tube device in order to solve the above problems. That is, an air tube disposed from the transmitting station to the receiving station, a cylindrical capsule for containing an article, and a sliding member disposed at both ends of the capsule and in sliding contact with the inner wall of the air tube. An air tube comprising at least an air transmitter, the air transmitter comprising transmitting means for emitting light or sound indicating the type of an article contained in the capsule, the air transmitter The station is an air tube apparatus provided with recognition means for receiving the light or sound emitted by the transmission means and recognizing the type of the article contained in the capsule.

  The pneumatic tube provided by the present invention comprises a pneumatic tube disposed from a transmitting station to a receiving station, a cylindrical capsule for containing articles, and an inner wall of the pneumatic tube disposed at both ends of the capsule. An air pipe apparatus comprising an air transmitter comprising at least a sliding body sliding in contact with the air, the air transmitter comprising a light or a sound indicative of a type of an article contained in the capsule. The receiving station includes transmitting means, and the receiving station includes recognition means for receiving the light or sound oscillated by the transmitting means and recognizing the type of the article contained in the capsule. It becomes possible to prepare in advance in response to the goods to be introduced, and it is possible to make a prompt response at a medical site etc.

(A) Perspective view of air transport, (b) cross-sectional view of air transport shown in (a). The whole schematic diagram of a pneumatic tube device.

  Hereinafter, an embodiment of an air delivery pipe apparatus constructed in accordance with the present invention will be described with reference to the drawings.

  FIG. 1 (a) shows a general perspective view of an air carrier 10 constructed in accordance with the present invention. As shown in FIG. 1 (a), an air carrier 10 comprises a cylindrical capsule 11 for containing articles, annular sliding members 12, 12 disposed at the upper and lower ends of the capsule 11, and a sliding member 12 , 12 for supporting the end surface of the capsule 11 circular first fixed plate 13a, a second fixed plate 13b. In the capsule 11, a label ("A" in the present embodiment) for identifying an individual of the capsule 11 is attached. The capsule 11 is provided with an opening for taking an article in and out of the capsule 11, but this is omitted in the figure. The first fixing plate 13a and the second fixing plate 13b are fixed to the upper end and the lower end of the capsule 11 by four bolts 15, respectively, and a circular opening is formed at the center of the first fixing plate 13a. 13c is provided.

  FIG. 1 (b) is a schematic cross-sectional view of the air carrier 10 cut in the longitudinal direction in order to explain the structure of the air carrier 10 of the present embodiment in more detail.

  The sliding body 12 is composed of a felt ring 12a in contact with the inner wall of the pneumatic tube, and a support ring 12b for supporting the felt ring 12a. The felt ring 12a can be made of, for example, a cloth made of animal hair such as wool by applying steam, heat and pressure to the carpet. The felt ring 12a is not limited to this, and a felt-like non-woven fabric made of chemical fibers may be used, but the felt ring 12a slides on the inner wall of the pneumatic tube, so that a felt material hardly generating static electricity It is preferable to select

  The dimension of the support ring 12b is set such that a minute gap is created for the groove portion surrounded by the upper end 11a of the capsule 11 and the first fixing plate 13a, and the lower end 11b of the capsule 11 and the second fixing plate 13b. It is preferable to be made of a fluorine-based resin so as to slide freely in the groove when being loosely fitted and transferred inside the air delivery pipe.

  The air transport 10 comprises transmitting means 20 for transmitting light or sound indicating the type of article contained in the capsule 11. The transmitting means 20 includes a transmitter 21 for emitting light or sound, and a controller 22 for controlling the light or sound emitted by the transmitter 21. The transmitter 21 is composed of, for example, an LED light source, a known speaker that converts an electrical signal to physical vibration and emits sound, and is disposed to face the outside from the opening 13 c of the first fixing plate 13 a There is. The controller 22 configured by a microchip incorporating a CPU is stored in a memory (not shown) in which a plurality of types of light emission patterns or a plurality of types of acoustic patterns corresponding to each of a plurality of types of articles are stored in advance. And an output unit (not shown) for outputting an electrical signal of a light emission pattern or an acoustic pattern selected from the plurality of light emission patterns or the plurality of acoustic patterns to the transmitter 21. Further, a battery 30 for supplying power to the transmitting means 20 is mounted inside the capsule 11. Although illustration is omitted, the transmitter 21, the controller 22, and the battery 30 are electrically connected, and the transmitter 21 emits light or sound by an electrical signal output from the output unit of the controller 22. It has become.

  FIG. 2 shows an overall schematic view of an air delivery pipe apparatus 100 according to the present embodiment. The pneumatic tube device 100 is provided with a transmitting station 110, a receiving station 120, and a pneumatic tube 101 disposed from the transmitting station 110 to the receiving station 120. Curved portions are appropriately formed in the pneumatic tube 101 according to the position and route of the destination to which the pneumatic transducer 10 is transferred.

  As shown in FIG. 2, a suction means 130 for decompressing the inside of the air feed pipe 101 and a pressure feed means 140 for pressure-feeding air to the air feed pipe 101 are connected to the air feed pipe 101. The suction means 130 is constituted by a suction pump 131 and an intake pipe 133 provided with a valve 132, and the pressure feeding means 140 is constituted by a pressure feed pump 141 and a pressure feed pipe 143 provided with a valve 142.

  The transmission station 110 is provided on one end side of the pneumatic tube 101, and brings the transmission table 114 into proximity (indicated by a solid line) to the one end of the pneumatic tube 101 and separates (indicated by a two-dot chain line). Ascending and lowering means 112 is provided. The elevating means 112 is configured to convert the rotational movement of the motor 111 into linear movement via the ball screw 113 incorporated in the elevating means 112 and transmit the linear movement to the engaging portion 114 a of the transmission table 114. It has a function of advancing and retracting to one end and positioning at a desired position. A communication hole 115 is disposed on the transmission table 114, and an air release valve 117 is connected via a pipe 116. In the state where the transmission table 114 is closest to one end of the air pipe 101 (indicated by a solid line), the transmission table 114 blocks the one end of the air pipe 101, and particularly in the state where the air release valve 117 is closed. The movement of air at one end side of the pneumatic tube 101 is restricted.

  The receiving station 120 has substantially the same configuration as the transmitting station 110, and the receiving table 124 is close to the other end of the pneumatic tube 101 (indicated by a solid line) and separated (indicated by a two-dot chain line). The lifting means 122 is driven so as to be driven. The elevating means 122 has the same configuration as the elevating means 112 described above, converts the rotational movement of the motor 121 into a linear movement via a ball screw (not shown) incorporated in the elevating means 122 and does not show the receiving table 124 It has a configuration for transmitting to the engaging portion, and has a function of advancing and retracting the reception table 124 with respect to the other end. A communication hole 125 is disposed on the reception table 124, and an air release valve 127 is connected via a pipe 126. In the state shown by the solid line where the reception table 124 is closest to the other end of the air pipe 101, the reception table 124 closes the other end of the air pipe 101, and in the state where the air release valve 127 is closed, Entry and exit of air at the other end side of the pneumatic tube 101 is restricted. By providing the above-described configuration, one end and the other end of the pneumatic tube 101 can be closed, and the inside of the pneumatic tube 101 can be entirely airtight. Further, the inner diameter of the pneumatic tube 101 is set corresponding to the outer diameter of the sliding body 12 of the pneumatic transducer 10, and is set to a size slightly larger than the outer size of the sliding body 12.

  Further, the receiving station 120 is provided with a recognition means 150 for receiving the light or sound emitted by the transmission means 20 of the air mover 10 and recognizing the type of the article contained in the capsule 11. The recognition unit 150 of this embodiment detects a light emission pattern or an acoustic pattern transmitted by the transmission unit 20 and outputs an electrical signal corresponding to the detected light emission pattern or the acoustic pattern, and outputs from the detector 151 The receiver 152 receives the electrical signal and identifies the type of the item contained in the capsule 11, and the monitor 153 displays the type of the item identified by the receiver 152. The receiver 152 configured of a microchip incorporating a CPU is a memory in which a pattern identical to a plurality of types of light emission patterns or a plurality of types of acoustic patterns stored in the memory of the controller 22 of the transmission means 20 is stored in advance. Have. The receiver 152 electrically connected to the detector 151 stores, in the memory of the receiver 152, a light emission pattern or an acoustic pattern that matches the light emission pattern or the acoustic pattern of the electrical signal output from the detector 151. While extracting from the plurality of types of light emission patterns or the plurality of types of acoustic patterns, the type of the article corresponding to the extracted light emission pattern or acoustic pattern is specified. The receiver 152, which is also electrically connected to the monitor 153, causes the monitor 153 to display the specified item type.

  The pneumatic tube device 100 of the present embodiment is configured as described above in general, and the operation of the pneumatic tube device 100 of the present embodiment will be described below.

  In order to transport the pneumatic transducer 10 by the pneumatic tube device 100, first, the drive means 112 is operated at the transmitting station 110 to move the transmitting table 114 to the position indicated by 114 '. Further, the article is accommodated in the capsule 11 of the air carrier 10, and light or sound indicating the type of the article accommodated in the capsule 11 is transmitted from the transmitting means 20. In order to cause light or sound to be emitted from the transmitting means 20, a light emission pattern or an acoustic pattern corresponding to the type of the article contained in the capsule 11 is selected from a plurality of light emission patterns or a plurality of acoustic patterns stored in the memory of the controller 22. The electric signal of the selected light emission pattern or acoustic pattern is selected and output from the output part of the controller 22 to the transmitter 21. The input means for performing such operations may be directly attached to the air mover 10 or may be provided in the transmitting station 110 and wirelessly connected to the controller 22. Next, the air transmitter 10 transmitting light or sound from the transmitter 20 is set on the transmission table 114, the transmission table 114 is raised, and the air transmitter 10 is inserted into one end of the air tube 101. The air release valve 117 is closed in a state in which one end of the air tube 101 is closed by the transmission table 114. Further, the reception table 124 is also positioned at a position where the other end of the air pipe 101 is closed, and the air release valve 127 is closed to make the inside of the air pipe 101 airtight.

  As described above, when the pneumatic conveying member 10 is set, the valve 132 of the suction source 130 is opened, the suction pump 131 is operated, and the inside of the pneumatic tube 101 is depressurized. When the inside of the pneumatic tube 101 is fully depressurized, the air release valve 117 of the transmission station 110 is opened. When the air release valve 117 is opened, an air pressure difference occurs between the air tube 101 side of the air transmitter 10 and the air release valve 117 side, and this air pressure difference causes a difference in FIG. The air transmitter 10 at the position shown is sucked by the negative pressure in the air pipe 101 that has been depressurized, and while the air is introduced from the air release valve 117, the air transmitter 10 is started from the transmission station 110.

  The air transmitter 10 which has been started from the transmission station 110 travels through the air pipe 101 by the above-mentioned air pressure difference, and then passes through the connection portion between the pumping means 140 and the air pipe 101, and the air transmitter 10 is shown in FIG. When it is confirmed by the sensor (not shown) that the position b) is reached, the valve 142 of the pumping means 140 is opened and the pumping pump 141 is operated to close the valve 132 of the suction means 130 and the suction pump 131. Stop. Furthermore, at the same time, the air release valve 117 of the transmission station 110 is closed, and the air release valve 127 of the reception station 120 is opened. By doing this, the pneumatic transducer 10 can continue to travel in the pneumatic tube 101 while obtaining propulsive force by the air that is continuously pumped from the rear in the pneumatic tube 101.

  As described above, the pumping means 140 is activated and the suction means 130 is stopped to further transport the air carriage 10 to reach the reception table 124 of the receiving station 120 (indicated by (c) in the figure). ). Note that the air release valve 127 is closed before the air transfer element 10 reaches the reception table 124 to generate an air cushion between the air transfer element 10 and the reception table 124, and the air is transmitted to the reception table 124. It is preferable to reduce the impact when the feeding element 10 reaches. When the air transport member 10 reaches the reception table 124, the operation of the pumping means 140 is stopped and the lifting means 122 is operated to lower the reception table 124 to the position indicated by 124 'and take out the air transport member 10. be able to.

  And, in the present embodiment, the air transmitter 10 transmits light or sound indicating the type of the article contained in the capsule 11 while advancing the air tube 101 from the transmitting station 110 to the receiving station 120. When the transmitter 10 arrives at the reception table 124 of the receiving station 120 at the latest, light or sound emitted from the transmitter 20 is detected by the detector 151 of the recognition unit 150. The type of the article contained in the capsule 11 is recognized in the receiver 152 by the AQ, and the type of the article contained in the capsule 11 ("serum" in this embodiment) is displayed on the monitor 153 on the monitor 153. Thus, at the receiving station 120, the raising and lowering means 122 of the receiving station 120 is operated to lower the receiving table 124 to the position indicated by 124 'and the articles to be sent are removed before taking out the air carrier 10. It is possible to know in advance what it is, and it is therefore possible to prepare in advance corresponding to the goods to be sent, and it is possible to make a prompt response at a medical site or the like.

  The light or sound emitted by the transmitting means 20 of the air transport child 10 is to show not only the type of the article contained in the capsule 11 but also a label for identifying the individual of the capsule 11, and also shown in FIG. The label of the capsule 11 may be displayed on the monitor 153 of the recognition means 150 together with the type of the article contained in the capsule 11 as shown in FIG.

10: Air transport 11: Capsule 12: Slide 12 12: Felt ring 12b: Support ring 20: Transmission means 21: Transmitter 22: Controller 100: Air tube 101: Air tube 110: Transmission station 120: Reception station 150: Recognition means 151: Detector 152: Receiver 153: Monitor

Claims (1)

At least a pneumatic tube disposed from the transmitting station to the receiving station, a cylindrical capsule for containing an article, and a sliding member disposed at both ends of the capsule and sliding in contact with the inner wall of the pneumatic tube. An air pipe apparatus including:
The air transport comprises transmitting means for transmitting light or sound indicating the type of article contained in the capsule,
The air receiving apparatus comprises recognition means for receiving the light or sound emitted by the transmission means and recognizing the type of the article contained in the capsule.