CN104030038A - Pneumatic pipe transmitting system and transmitting method - Google Patents

Abstract

The invention discloses a pneumatic pipe transmitting system and a pneumatic pipe transmitting method, and relates to the technical field of transmission of pneumatic pipes; the pneumatic pipe transmitting system and method are invented to overcome the problem of high failure rate and transmission efficiency. The pneumatic pipe transmitting system comprises an emitting workstation and a receiving workstation, wherein a transmitting pipe is connected between the emitting workstation and the receiving workstation, the side wall of the transmitting pipe is of a whole sealed structure without openings, and a wind source device is connected with the emitting workstation and/or the receiving workstation. The pneumatic pipe transmitting method comprises: starting the wind source device, wherein a transmitter moves from the emitting workstation to the receiving workstation in the transmitting pipe with the side wall of the whole sealed structure without openings; after a preset period, closing the wind source device, wherein the transmitter slips down into the receiving workstation under the effect of own inertia and gravity. The pneumatic pipe transmitting system and method are applicable to the transmission of pneumatic pipes.

Description

A kind of Pneumatic pipe transmission system and transmission method

Technical field

The present invention relates to pneumatic pipeline transmission field, relate in particular to the transmission pipeline in Pneumatic pipe transmission system.

Background technology

Pneumatic pipe transmission system is modern quick logistics transmission instrument.Pneumatic pipe transmission system is applied in the place that the daily requirements such as hospital, bank, office building, supermarket, workshop, laboratory have large numbers of items to transmit.Can transmit the article o article of any proper volume such as case history, medical certificate, medicine, laboratory test report, bill, cash, file and insert in transport vehicle when transmission, as special-purpose transmission cylinder, transmission cylinder guarantees that article are not damaged in the process transmitting.Pneumatic pipe transmission system is sent to another one workstation by article from a workstation in pipeline, not only can effectively guarantee to transmit the safety of article, and can save time, and increases work efficiency.

As shown in Figure 1, Pneumatic pipe transmission system comprises transmission workstation 1 and receiving workstation 2, between described transmission workstation 1 and receiving workstation 2, be connected with transmission pipeline 3, the transport vehicle 4 in transmission pipeline 3 with transporting articles, on transmission pipeline 3, be provided with blower fan 5,5 ', blower fan sensor 6,6 ', valve system 7,7 '.Described blower fan 5,5 ', blower fan sensor 6,6 ', valve system 7,7 ' is electrically connected to main control system respectively.Main control system by-pass valve control device 7,7 ' and blower fan 5,5 ' open, and control blower fan 5,5 ' close according to the transducing signal of blower fan sensor 6.In existing Pneumatic pipe transmission system, on Pneumatic pipe, offer opening, to the devices such as extractor fan, sensor, valve system are installed in the position of opening.

Contriver, in realizing process of the present invention, finds that existing Pneumatic pipe transmission system, owing to offering opening on Pneumatic pipe, tends to cause the poor sealing of pipeline, cause source of the gas to be revealed, or inner-walls of duct is smooth not, and damping is larger, affects transmission efficiency.

Summary of the invention

A technical matters to be solved by this invention is to provide a kind of failure rate is low and the high Pneumatic pipe transmission system of transmission efficiency.

For achieving the above object, Pneumatic pipe transmission system embodiment of the present invention adopts following technical scheme:

A kind of Pneumatic pipe transmission system, comprise and send workstation and receiving workstation, between described transmission workstation and receiving workstation, be connected with transmission pipeline, described transmission pipeline comprises arc bend part and by the two ends of described arc bend part straight down or the straight-tube portion that forms of oblique downward-extension, described transmission workstation and receiving workstation are connected to the end of the straight-tube portion of described transmission pipeline, and the sidewall of described transmission pipeline is astomous full-closed structure; And be connected with air source apparatus with described transmission workstation and/or receiving workstation.

Preferably, the end of described transmission workstation and the upper end of receiving workstation and the straight-tube portion of described transmission pipeline is connected, and bottom is connected with described air source apparatus; In the bottom of described transmission workstation and receiving workstation, there is the support portion of supporting transmitter, on described support portion, offer the breather hole that is communicated with described transmission pipeline and described air source apparatus.

Preferably, described air source apparatus is connected with wind source control device; Further preferably, described wind source control device can control described air source apparatus start and move the schedule time after automatically close described air source apparatus.

Preferably, pipe section at described transmission pipeline in extreme higher position or the sidewall of being partial to described receiving workstation or being partial to the pipe section of described transmission workstation from the highest position of described transmission pipeline are provided with sensor, and described sensor is electrically connected to described wind source control device; Described wind source control device is controlled described air source apparatus and is started, and transmitter moves along transmission pipeline from sending workstation under the effect of difference of pressure; Described sensor sends sensing signal to described wind source control device while sensing described transmitter through this sensor, described wind source control device, according to the run up time of described air source apparatus and time of receiving the signal of described sensor institute sensing, is set or is adjusted described wind source control device and control the described schedule time that described air source apparatus starts and moves.

Wherein, described air source apparatus is blowing engine or air suctiton ventilator.

Preferably, between described receiving workstation and described air source apparatus, be provided with valve, or away from one end of described receiving workstation, be provided with valve at described air source apparatus; In the schedule time when the air source apparatus operation a period of time that starts operation closes automatically or after automatically closing, described valve closing.

Preferably, described valve is electric control valve, and the control circuit of described valve is electrically connected to described wind source control device; Described wind source control device is controlled described air source apparatus and is started and move when automatically closing described air source apparatus after the schedule time, or automatically closes in the schedule time after described air source apparatus, and described wind source control device is controlled described valve and automatically closed.

Another technical matters to be solved by this invention is to provide a kind of failure rate is low and the high Pneumatic pipeline transmission method of transmission efficiency.

For achieving the above object, Pneumatic pipeline transmission method embodiment of the present invention adopts following technical scheme:

A Pneumatic pipeline transmission method according to Pneumatic pipe transmission system described in aforementioned any one, comprising:

Transmitter is put into transmission workstation;

Start air source apparatus, in the transmission pipeline that described transmitter is astomous full-closed structure at described sidewall, from sending workstation, to receiving workstation direction, move;

After the schedule time, close described air source apparatus;

Described transmitter glides and drops down onto in receiving workstation in the effect of self inertia and gravity.

Preferably, described startup air source apparatus, in the transmission pipeline that described transmitter is astomous full-closed structure at described sidewall, from sending workstation, to the operation of receiving workstation direction, comprise: by wind source control device, start the blowing engine being connected with described transmission workstation, described transmitter, under the effect of malleation air-flow, from send workstation to receiving workstation direction moves in the transmission pipeline that is astomous full-closed structure at described sidewall; Or by wind source control device, start the air suctiton ventilator being connected with described receiving workstation, described transmitter, under the effect of negative-pressure air-flow, from send workstation to receiving workstation direction moves in the transmission pipeline that is astomous full-closed structure at described sidewall.

Preferably, described after the schedule time, close described air source apparatus and comprise: after the schedule time, by wind source control device, automatically close described air source apparatus, or close manually described air source apparatus.

Preferably, described Pneumatic pipeline transmission method also comprises step: the pipe section at described transmission pipeline in extreme higher position or be partial to described receiving workstation or be partial to sensor installation the sidewall of pipe section of described transmission workstation from the highest position of described transmission pipeline, and described sensor is electrically connected to described wind source control device; Described wind source control device is controlled described air source apparatus and is started, and transmitter moves along transmission pipeline from sending workstation under the effect of difference of pressure; Described sensor sends sensing signal to described wind source control device while sensing described transmitter through this sensor, described wind source control device, according to the run up time of described air source apparatus and time of receiving the signal of described sensor institute sensing, is set or is adjusted described wind source control device and control the described schedule time that described air source apparatus starts and moves.

Preferably, at described transmitter, in the effect of self inertia and gravity, glide and drop down onto in the process in receiving workstation, to described transmitter, provide reverse continuation or pulse feature air-flow.

Preferably, when closing described air source apparatus, or in the schedule time after closing described air source apparatus, by the valve arranging between described receiving workstation and described air source apparatus, or the valve closing arranging away from one end of described receiving workstation at described air source apparatus.

Preferably, wind source control device control described air source apparatus start and move the schedule time after automatically close described air source apparatus in, or automatically close in the schedule time after described air source apparatus, described wind source control device is controlled described valve and is automatically closed.

In Pneumatic pipe transmission system of the present invention and transmission method embodiment, air source apparatus is connected with transmission workstation and/or receiving workstation, the sidewall of transmission pipeline is astomous full-closed structure, make on the one hand the good airproof performance of whole transmission pipeline, can improve the degree of utilization of source of the gas, thereby transmission efficiency is improved; Make on the other hand, on transmission pipeline, other affiliated facilities or parts are not installed, make the structure of whole Pneumatic pipe transmission system very simple, be conducive to reduce fault rate.

Accompanying drawing explanation

In order to be illustrated more clearly in the embodiment of the present invention or technical scheme of the prior art, to the accompanying drawing of required use in embodiment or description of the Prior Art be briefly described below, apparently, accompanying drawing in the following describes is only some embodiments of the present invention, for those of ordinary skills, do not paying under the prerequisite of creative work, can also obtain according to these accompanying drawings other accompanying drawing.

Fig. 1 is the structural representation of Pneumatic pipe transmission system in prior art;

Fig. 2 is the structural representation of Pneumatic pipe transmission system one embodiment of the present invention;

Fig. 3 is the structural representation of another embodiment of Pneumatic pipe transmission system of the present invention;

Fig. 4 is the structural representation of the another embodiment of Pneumatic pipe transmission system of the present invention;

Fig. 5 is the Pneumatic pipe transmission system of the present invention structural representation of an embodiment again.

The specific embodiment

Below in conjunction with accompanying drawing, a kind of Pneumatic pipe transmission system of the embodiment of the present invention and transmission method are described in detail.

Should be clear and definite, described embodiment is only the present invention's part embodiment, rather than whole embodiment.Embodiment based in the present invention, those of ordinary skills, not making all other embodiment that obtain under creative work prerequisite, belong to the scope of protection of the invention.

Shown in Fig. 2, the embodiment of the present invention provides a kind of Pneumatic pipe transmission system, comprise and send workstation 1 and receiving workstation 2, between described transmission workstation 1 and receiving workstation 2, be connected with transmission pipeline 3, described transmission pipeline 3 comprises arc bend part and by the two ends of described arc bend part straight down or the straight-tube portion that forms of oblique downward-extension, described transmission workstation 1 and receiving workstation 2 are connected to the end of the straight-tube portion of described transmission pipeline 3, and the sidewall of described transmission pipeline 3 is astomous full-closed structure; And be connected with air source apparatus 5,5 ' with described transmission workstation 1 and/or receiving workstation 2.

In the present embodiment, described air source apparatus 5 or 5 ' start after, in transmission pipeline, form malleation or negative pressure, transmitter 4 transfers to receiving workstation 2 from sending workstation 1 under the effect of malleation or negative pressure.

In Pneumatic pipe transmission system embodiment of the present invention, air source apparatus 5 is connected with transmission workstation 1 and/or receiving workstation 2, the sidewall of transmission pipeline 3 is astomous full-closed structure, make on the one hand the good airproof performance of whole transmission pipeline, can improve the degree of utilization of source of the gas, thereby transmission efficiency is improved; Make on the other hand, on transmission pipeline 3, other affiliated facilities or parts are not installed, make the structure of whole Pneumatic pipe transmission system very simple, be conducive to reduce fault rate.

In aforementioned Pneumatic pipe transmission system embodiment, preferably, the inner wall smooth of described transmission pipeline 3, damping is little, can guarantee the smooth and easy current of transmitter, further improves transmission efficiency.

In aforementioned Pneumatic pipe transmission system embodiment, further, the upper end of described transmission workstation 1 and receiving workstation 2 is connected with the end of the straight-tube portion of described transmission pipeline 3, and bottom is connected with described air source apparatus 5,5 ';

In the bottom of described transmission workstation and receiving workstation, there is the support portion of supporting transmitter, on described support portion, offer the breather hole (in figure for illustrating) that is communicated with described transmission pipeline and described air source apparatus.

In aforementioned Pneumatic pipe transmission system embodiment, further, described air source apparatus 5,5 ' is connected with wind source control device 8, and preferably, wind source control device 8 can be controlled described air source apparatus 5 or 5 ' start and move the schedule time then automatically close described air source apparatus 5 or 5 '.Can, at the interior timer that arranges of wind source control device 8, by this timer, preset the described schedule time.

Wherein, the described schedule time refers to from described air source apparatus and starts, and runs to the time that only depends on himself inertia and gravity can landing to experience during to position in receiving workstation to described transmitter.

In the present embodiment, described wind source control device 8 is controlled described air source apparatus 5 or 5 ' start after, in transmission pipeline, form malleation or negative pressure, transmitter 4 moves to receiving workstation 2 directions from sending workstation 1 under the effect of malleation or negative pressure, when described transmitter runs to the desired location that not yet arrives receiving workstation, automatically close described air source apparatus 5 or 5 ', described transmitter 4 glides and drops down onto in receiving workstation 2 in the effect of self inertia and gravity.Described wind source control device control described air source apparatus start and move the schedule time after automatically close described air source apparatus, make described transmitter rely on self inertia and gravity landing to receiving workstation, can save the utilization of the energy, reduce energy resource consumption.At transmission workstation and receiving workstation, wind source control device 8 can be set respectively.

In aforementioned Pneumatic pipe transmission system embodiment, for the suitable time that acoustic wind source apparatus starts and moves, can be by manual operation, test of many times obtains.Shown in Fig. 3, preferably, pipe section at described transmission pipeline 3 in extreme higher position or the sidewall of being partial to described receiving workstation 2 or being partial to the pipe section of described transmission workstation 1 from the highest position of described transmission pipeline are provided with sensor 6, and described sensor 6 is electrically connected to described wind source control device 8; Described wind source control device 8 is controlled described air source apparatus 5 or 5 ' start, transmitter moves along transmission pipeline from sending workstation under the effect of difference of pressure; Described sensor 6 sends sensing signal to described wind source control device 8 while sensing described transmitter 4 through this sensor, described wind source control device 8 is according to described air source apparatus 5 or 5 ' run up time and the time that receives the signal of 6 sensings of described sensor, set or adjust described wind source control device and control the described schedule time that described air source apparatus starts and moves.

Preferably, described sensor 6 can be only acoustic wind source apparatus start and move the suitable time time use, once after measurement result determines, at this sensor that do not re-use normal in service of follow-up Pneumatic pipe transmission system.

Normally in service at Pneumatic pipe transmission system, As time goes on, inner-walls of duct and the transmitter moving in pipeline can produce wear phenomenon, preferably, regularly (as every other month) enable as described in sensor 6 redeterminate the suitable time that air source apparatus starts and moves, the described schedule time is before proofreaied and correct to adjustment.Preferably, described sensor 6 is selected Magnetic Sensor, and 6 need of sensor adhere to the outer wall that is arranged on transmission pipeline like this, without the complete seal structure of destroying transmission pipeline sidewall.

In previous embodiment, described air source apparatus 5,5 ' is blowing engine or air suctiton ventilator, or is the all-in-one of blowing engine and air suctiton ventilator.

Shown in Fig. 4, in Pneumatic pipe transmission system one embodiment of the present invention, between described receiving workstation 2 and described air source apparatus 5 ', be provided with valve 9, or away from one end of described receiving workstation 2, be provided with valve at described air source apparatus 5 '; At the air source apparatus 5 that starts operation, in the present embodiment, air source apparatus 5 is blowing engine, and in schedule time when operation a period of time closes automatically or after automatically closing, described valve 9 is closed.Can between transmitter 4 and described valve 9, be formed with " air cushion " like this, transmitter 4 is fallen in receiving workstation 2 under the effect of " air cushion ", thereby when alleviating transmitter and falling and the shock of receiving workstation.

In the aforementioned embodiment, preferably, described valve 9 is electric control valve, and as being electromagnetic valve or being the valve being opened or closed by driven by motor, and the control circuit of described valve 9 is electrically connected to described wind source control device 8; Described wind source control device 8 is controlled described air source apparatus 5 and is started and move when automatically closing described air source apparatus 5 after the schedule time, or automatically close in the schedule time after described air source apparatus 5, described wind source control device 8 is controlled described valve 9 and is automatically closed.Adopt wind source control device 8 to control described valve 9 and automatically close, make closing of described valve 9 and automatically closing and be connected of air source apparatus 5, greatly improved the promptness of valve closing, guaranteed the quick formation of described " air cushion ".

Shown in Fig. 5, transmission workstation 1 and receiving workstation 2 in the embodiment of the present invention are comparatively speaking, receiving workstation 2 is receiving workstation when receiving transmitter, and when utilizing this receiving workstation 2 to send transmitter, this receiving workstation 2 becomes transmission workstation.In the embodiment of the present invention, if a receiving workstation 2 is used as sending workstation, starting air source apparatus 5 so, in the present embodiment, air source apparatus 5 is air suctiton ventilator, before sending transmitter 4, need first also will send the valve arranging between workstation 2 and air source apparatus 5 ', or open away from the valve 10 of one end setting of described transmission workstation at air source apparatus 5 ', so that can be poor at the rear and front end of transmitter 4 mineralization pressure after air source apparatus 5 starts, thereby drive transmitter 4 in the interior trouble-free operation of transmission pipeline 3.When described wind source control device 8 control described air source apparatus 5 start and move the schedule time after when automatically closing described air source apparatus 5, or automatically close in the schedule time after described air source apparatus 5, described wind source control device 8 is controlled described valve 11 and is automatically closed.Can between transmitter 4 and described valve 11, be formed with " air cushion " like this, transmitter 4 is fallen in receiving workstation 1 under the effect of " air cushion ", thereby when alleviating transmitter and falling and the shock of receiving workstation.

The embodiment of the present invention also provides a kind of Pneumatic pipeline transmission method based on aforementioned arbitrary Pneumatic pipe transmission system embodiment, and described Pneumatic pipeline transmission method comprises:

Transmitter is put into transmission workstation;

Start air source apparatus, in the transmission pipeline that described transmitter is astomous full-closed structure at described sidewall, from sending workstation, to receiving workstation direction, move;

After the schedule time, close described air source apparatus;

Described transmitter glides and drops down onto in receiving workstation in the effect of self inertia and gravity.

In Pneumatic pipeline transmission method embodiment of the present invention, the sidewall of transmission pipeline is astomous full-closed structure, makes on the one hand the good airproof performance of whole transmission pipeline, can improve the degree of utilization of source of the gas, thereby transmission efficiency is improved; Make on the other hand, on transmission pipeline, other affiliated facilities or parts are not installed, make the structure of whole Pneumatic pipe transmission system very simple, be conducive to reduce fault rate.

In aforementioned Pneumatic pipeline transmission method embodiment, described startup air source apparatus, in the transmission pipeline that described transmitter is astomous full-closed structure at described sidewall, from sending workstation, to the operation of receiving workstation direction, comprise: by wind source control device, start the blowing engine being connected with described transmission workstation, described transmitter, under the effect of malleation air-flow, from send workstation to receiving workstation direction moves in the transmission pipeline that is astomous full-closed structure at described sidewall; Or, by wind source control device, starting the air suctiton ventilator being connected with described receiving workstation, described transmitter, under the effect of negative-pressure air-flow, from send workstation to receiving workstation direction moves in the transmission pipeline that is astomous full-closed structure at described sidewall.

In aforementioned Pneumatic pipeline transmission method embodiment, described after the schedule time, close described air source apparatus and comprise: after the schedule time, by wind source control device, automatically close described air source apparatus, or close manually described air source apparatus.

In aforementioned Pneumatic pipeline transmission method embodiment, for the suitable time that acoustic wind source apparatus starts and moves, can be by manual operation, test of many times obtains.Preferably, described Pneumatic pipeline transmission method also comprises step:

Pipe section at described transmission pipeline in extreme higher position or be partial to described receiving workstation or be partial to sensor installation the sidewall of pipe section of described transmission workstation from the highest position of described transmission pipeline, and described sensor is electrically connected to described wind source control device;

Described wind source control device is controlled described air source apparatus and is started, and transmitter moves along transmission pipeline from sending workstation under the effect of difference of pressure; Described sensor sends sensing signal to described wind source control device while sensing described transmitter through this sensor, described wind source control device, according to the run up time of described air source apparatus and time of receiving the signal of described sensor institute sensing, is set or is adjusted described wind source control device and control the described schedule time that described air source apparatus starts and moves.

Normally in service at Pneumatic pipe transmission system, As time goes on, inner-walls of duct and the transmitter moving in pipeline can produce wear phenomenon, preferably, regularly (as every other month) enable as described in sensor redeterminate the suitable time that air source apparatus starts and moves, the described schedule time is before proofreaied and correct to adjustment.

In aforementioned Pneumatic pipeline transmission method embodiment, impact to receiving station while falling in order to reduce transmitter, preferably, at described transmitter, in the effect of self inertia and gravity, glide and drop down onto in the process in receiving workstation, to described transmitter, provide reverse continuation or pulse feature air-flow.

In an embodiment of Pneumatic pipeline transmission method of the present invention, preferably, when closing described air source apparatus, or in the schedule time after closing described air source apparatus, by the valve arranging between described receiving workstation and described air source apparatus, or the valve closing arranging away from one end of described receiving workstation at described air source apparatus.Can between transmitter and described valve, be formed with " air cushion " like this, transmitter is fallen in receiving workstation under the effect of " air cushion ", thereby when alleviating transmitter and falling and the shock of receiving workstation.

In the aforementioned embodiment, preferably, wind source control device control described air source apparatus start and move the schedule time after automatically close described air source apparatus in, or automatically close in the schedule time after described air source apparatus, described wind source control device is controlled described valve and is automatically closed.Adopt wind source control device to control described valve and automatically close, make closing of described valve and automatically closing and be connected of air source apparatus, greatly improved the promptness of valve closing, guaranteed the quick formation of described " air cushion ".

The above; it is only the specific embodiment of the present invention; but protection scope of the present invention is not limited to this; anyly be familiar with those skilled in the art in the technical scope that the present invention discloses; the new technical scheme that reconfigures formation of the variation that can expect easily or replacement or correlation technique feature; as claims indirect is quoted the supplementary features of dependent claims of independent claims and the new technical scheme that the supplementary features of independent claims are combined to form, within all should being encompassed in protection scope of the present invention.Therefore, protection scope of the present invention should be as the criterion with the protection domain of claim.

Claims (10)

1. a Pneumatic pipe transmission system, comprise and send workstation and receiving workstation, between described transmission workstation and receiving workstation, be connected with transmission pipeline, described transmission pipeline comprises arc bend part and by the two ends of described arc bend part straight down or the straight-tube portion that forms of oblique downward-extension, described transmission workstation and receiving workstation are connected to the end of the straight-tube portion of described transmission pipeline, it is characterized in that: the sidewall of described transmission pipeline is astomous full-closed structure; And be connected with air source apparatus with described transmission workstation and/or receiving workstation.

2. Pneumatic pipe transmission system according to claim 1, is characterized in that: the end of described transmission workstation and the upper end of receiving workstation and the straight-tube portion of described transmission pipeline is connected, and bottom is connected with described air source apparatus;

In the bottom of described transmission workstation and receiving workstation, there is the support portion of supporting transmitter, on described support portion, offer the breather hole that is communicated with described transmission pipeline and described air source apparatus.

3. Pneumatic pipe transmission system according to claim 1 and 2, is characterized in that: described air source apparatus is connected with wind source control device; Wherein, described wind source control device can control described air source apparatus start and move the schedule time after automatically close described air source apparatus.

4. according to the Pneumatic pipe transmission system described in claims 1 to 3 any one, it is characterized in that: the pipe section at described transmission pipeline in extreme higher position or the sidewall of being partial to described receiving workstation or being partial to the pipe section of described transmission workstation from the highest position of described transmission pipeline are provided with sensor, and described sensor is electrically connected to described wind source control device;

Described wind source control device is controlled described air source apparatus and is started, and transmitter moves along transmission pipeline from sending workstation under the effect of difference of pressure; Described sensor sends sensing signal to described wind source control device while sensing described transmitter through this sensor, described wind source control device, according to the run up time of described air source apparatus and time of receiving the signal of described sensor institute sensing, is set or is adjusted described wind source control device and control the described schedule time that described air source apparatus starts and moves.

5. according to the Pneumatic pipe transmission system described in claim 1 to 4 any one, it is characterized in that: described air source apparatus is blowing engine or air suctiton ventilator.

6. according to the Pneumatic pipe transmission system described in claim 1 to 5 any one, it is characterized in that: between described receiving workstation and described air source apparatus, be provided with valve, or away from one end of described receiving workstation, be provided with valve at described air source apparatus;

In the schedule time when the air source apparatus operation a period of time that starts operation closes automatically or after automatically closing, described valve closing.

7. according to the Pneumatic pipe transmission system described in claim 1 to 6 any one, it is characterized in that: described valve is electric control valve, and the control circuit of described valve is electrically connected to described wind source control device;

Described wind source control device is controlled described air source apparatus and is started and move when automatically closing described air source apparatus after the schedule time, or automatically closes in the schedule time after described air source apparatus, and described wind source control device is controlled described valve and automatically closed.

8. a Pneumatic pipeline transmission method for Pneumatic pipe transmission system according to claim 1, is characterized in that: comprising:

Transmitter is put into transmission workstation;

Start air source apparatus, in the transmission pipeline that described transmitter is astomous full-closed structure at described sidewall, from sending workstation, to receiving workstation direction, move;

After the schedule time, close described air source apparatus;

Described transmitter glides and drops down onto in receiving workstation in the effect of self inertia and gravity.

9. Pneumatic pipeline transmission method according to claim 8, is characterized in that: described startup air source apparatus, comprises to the operation of receiving workstation direction from sending workstation in the transmission pipeline that described transmitter is astomous full-closed structure at described sidewall:

By wind source control device, start the blowing engine being connected with described transmission workstation, described transmitter, under the effect of malleation air-flow, from send workstation to receiving workstation direction moves in the transmission pipeline that is astomous full-closed structure at described sidewall; Or

By wind source control device, start the air suctiton ventilator being connected with described receiving workstation, described transmitter, under the effect of negative-pressure air-flow, from send workstation to receiving workstation direction moves in the transmission pipeline that is astomous full-closed structure at described sidewall.

10. Pneumatic pipeline transmission method according to claim 8 or claim 9, is characterized in that: described after the schedule time, and close described air source apparatus and comprise:

After the schedule time, by wind source control device, automatically close described air source apparatus, or close manually described air source apparatus.