CN107374577A - Novel gastroenteritic mirror system - Google Patents

Abstract

The invention discloses a kind of novel gastroenteritic mirror system, the suction port of Gastrointestinal Endoscopes is connected by the suction tube of suction tube and negative pressure device, and the first electronics choke apparatus is installed on suction tube；The operation handle of Gastrointestinal Endoscopes is provided with electronics and attracts button and electronics aqueous vapor button, the first electronics choke apparatus to attract button control by electronics, presses electronics and attracts button, attracts to start, and unclamps electronics and attracts button, attracts to stop；Flicking electronics aqueous vapor button, by being supplied gas in the snorkel and Gastrointestinal Endoscopes inner tube road direction body of aqueous vapor administrative center, electronics aqueous vapor button is pressed again, realized by pipeline in the flow pipe and Gastrointestinal Endoscopes of aqueous vapor administrative center and send water to rinse camera lens.Electronics of the present invention attracts button and electronics aqueous vapor button to use contactless electronic button, is not required to individually cleaning sterilization；Suction pipeline, water supply conduit and aspirating pipeline become completely to be more easy to cleaning and sterilizing without dead space；The present invention integrates perfusion and aspirated, and will not block, and can effectively improve operating efficiency and work quality.

Description

Novel gastroenteritic mirror system

Technical field

The invention belongs to technical field of medical instruments, specifically, more particularly to a kind of novel gastroenteritic mirror system.

Background technology

Gastrointestinal Endoscopes are diagnosis and the Main Means for treating disease of digestive tract, receive the patient of Gastrointestinal Endoscopes diagnosis and treatment every year quick Increase.Gastrointestinal Endoscopes in use, often by the secretion of patient, excreta and blood, humoral pollution, are even blocked sometimes Plug.To prevent cross-infection, it is necessary to strict cleaning and sterilizing.But because Gastrointestinal Endoscopes material is special, expensive, internal duct is multiple Miscellaneous, opening and its button are more (see Fig. 9), and method for cleaning and disinfecting is limited, and the cleaning and sterilizing to scope brings extreme difficulty, Yi Zao Into cross pollution, it is necessary to largely manually press specification cleaning and sterilizing.

The content of the invention

In view of the above-mentioned deficiency of prior art, the technical problems to be solved by the invention are to provide a kind of novel gastroenteritic Mirror system.

Technical scheme is as follows：A kind of novel gastroenteritic mirror system, including Gastrointestinal Endoscopes, Gastrointestinal Endoscopes main frame and water air pipe Reason center, it is characterised in that：The suction port of the Gastrointestinal Endoscopes is connected by the suction tube of suction tube and negative pressure device, in suction tube The first electronics choke apparatus of upper installation；Electronics is provided with the operation handle of the Gastrointestinal Endoscopes attracts button and electronics aqueous vapor to press Button, electronics attract button and electronics aqueous vapor button to be connected by photoelectricity pipeline with Gastrointestinal Endoscopes main frame, the first electronics choke apparatus Button control is attracted by electronics, electronics is pressed and attracts button, the first electronics choke apparatus is opened, attracts to start, unclamps electronics and inhale Draw button, the first electronics choke apparatus closes, attracts to stop；Flicking electronics aqueous vapor button, passes through supplying gas for aqueous vapor administrative center Supplied gas in pipe and Gastrointestinal Endoscopes inner tube road direction body, press electronics aqueous vapor button again, pass through the flow pipe and Gastrointestinal Endoscopes of aqueous vapor administrative center Interior pipeline, which is realized, send water to rinse camera lens.

Using above technical scheme, electronics attracts button to be changed to contactless electronic button by contact type mechanical button, send Pneumatic transmission water button (aqueous vapor button) is also changed to contactless electronic button by contact type mechanical button, electronic button be not required to dismounting, Individually cleaning sterilization is not needed more, and medium of each electronics choke apparatus not with corresponding channel interior contacts so that attract Pipeline, water supply conduit and aspirating pipeline become, more completely without dead space, to be more easy to cleaning and sterilizing.

Preferably, the flow pipe of the aqueous vapor administrative center is connected after the second check valve, stretch into aqueous vapor bottle, second Second electronics choke apparatus is set on the flow pipe between check valve and aqueous vapor bottle, and snorkel is connected after the 3rd check valve, also stretched Enter in aqueous vapor bottle, the 3rd electronics choke apparatus is set on the snorkel between the 3rd check valve and aqueous vapor bottle；Connect in air inlet pipe There is bleeder pipe, the 4th electronics choke apparatus, the second electronics choke apparatus, the 3rd electronics choke apparatus are set on the bleeder pipe With the 4th electronics choke apparatus by electronics aqueous vapor button control, flicking electronics aqueous vapor button, the 3rd electronics choke apparatus opens, Second electronics choke apparatus and the 4th electronics choke apparatus are closed, and are supplied gas by snorkel into Gastrointestinal Endoscopes, again by electronics aqueous vapor Button, the second electronics choke apparatus are opened, and the 3rd electronics choke apparatus and the 4th electronics choke apparatus are closed, by flow pipe to Gastrointestinal Endoscopes inner water-supply.

Preferably, the flow pipe of the aqueous vapor administrative center is connected after the second check valve, stretch into aqueous vapor bottle, second Second electronics choke apparatus is set on the flow pipe between check valve and aqueous vapor bottle, and snorkel is connected after the 3rd check valve, also stretched Enter in aqueous vapor bottle, the 3rd electronics choke apparatus is set on the snorkel between the 3rd check valve and aqueous vapor bottle；In air inlet pipe 4th electronics choke apparatus, the second electronics choke apparatus, the 3rd electronics choke apparatus and the 4th electronics choke apparatus are set By electronics aqueous vapor button control, flicking electronics aqueous vapor button, the 3rd electronics choke apparatus and the 4th electronics choke apparatus open, Second electronics choke apparatus is closed, and is supplied gas by snorkel into Gastrointestinal Endoscopes, presses electronics aqueous vapor button, the second electronics choked flow dress again Put and opened with the 4th electronics choke apparatus, the 3rd electronics choke apparatus is closed, by flow pipe to Gastrointestinal Endoscopes inner water-supply.

Preferably, the flow pipe of the aqueous vapor administrative center is connected after the second check valve, stretch into aqueous vapor bottle, second Second electronics choke apparatus is set on the flow pipe between check valve and aqueous vapor bottle, and snorkel is connected after the 3rd check valve, also stretched Enter in aqueous vapor bottle, the 3rd electronics choke apparatus is set on the snorkel between the 3rd check valve and aqueous vapor bottle；Second electricity Sub- choke apparatus and the 3rd electronics choke apparatus are by electronics aqueous vapor button control, flicking electronics aqueous vapor button, the resistance of the 3rd electronics Device opening, the closing of the second electronics choke apparatus are flowed, is supplied gas by snorkel into Gastrointestinal Endoscopes, presses electronics aqueous vapor button again, the Two electronics choke apparatus are opened, and the 3rd electronics choke apparatus is closed, by flow pipe to Gastrointestinal Endoscopes inner water-supply.

Preferably, the flow pipe of the aqueous vapor administrative center is connected after the second check valve, stretch into aqueous vapor bottle, snorkel Connect after the 3rd check valve, also stretch into aqueous vapor bottle, the 3rd electricity is set on the snorkel between the 3rd check valve and aqueous vapor bottle Sub- choke apparatus；4th electronics choke apparatus, the 3rd electronics choke apparatus and the 4th electronics choked flow are set in air inlet pipe Device is by electronics aqueous vapor button control, flicking electronics aqueous vapor button, the 3rd electronics choke apparatus and the 4th electronics choke apparatus Open, supplied gas by snorkel into Gastrointestinal Endoscopes, press electronics aqueous vapor button again, the 4th electronics choke apparatus is opened, the 3rd electronics Choke apparatus is closed, by flow pipe to Gastrointestinal Endoscopes inner water-supply.

Preferably, the flow pipe of the aqueous vapor administrative center is connected after the second check valve, stretch into aqueous vapor bottle, snorkel Connect after the 3rd check valve, also stretch into aqueous vapor bottle, the 3rd electricity is set on the snorkel between the 3rd check valve and aqueous vapor bottle Sub- choke apparatus；Bleeder pipe is connected in air inlet pipe, the 4th electronics choke apparatus, the 3rd electronics choked flow are set on the bleeder pipe Device and the 4th electronics choke apparatus are by electronics aqueous vapor button control, flicking electronics aqueous vapor button, the 3rd electronics choke apparatus Open, the closing of the 4th electronics choke apparatus, supplied gas by snorkel into Gastrointestinal Endoscopes, press electronics aqueous vapor button, the 3rd electronics again Choke apparatus and the 4th electronics choke apparatus are closed, by flow pipe to Gastrointestinal Endoscopes inner water-supply.

The Gastrointestinal Endoscopes supply gas and sent water to share an aspirated and water sending common-use tunnel, and the aspirated and water sending common-use tunnel passes through pipe Road is connected with the first interface of the first threeway, and the second interface of the first threeway is connected with flow pipe, the 3rd interface of the first threeway It is connected with snorkel.Above structure only needs three pipelines (suction pipeline, secondary water supply conduit, aspirated and water sending common pall) can be real Function corresponding to existing, pipeline structure is not only simplify, and coordinate the disconnected electronic control mode of rear-mounted extrernal resistance so that suction pipeline It is not easily blocked.

The attraction and flushing of the Gastrointestinal Endoscopes share a perfusion suction common-use tunnel, and the perfusion is aspirated common-use tunnel and filled One connection of note suction common pall, the other end of perfusion suction common pall are connected with the 3rd interface of the second threeway, institute State the second interface of the second threeway to connect by the suction tube of suction tube and negative pressure device, the first interface series connection of the second threeway the After one check valve, it is connected with intrusion pipe, pump is set on intrusion pipe, during pump work, the first electronics choke apparatus is closed；First electricity When sub- choke apparatus is opened, pump stops.Above structure has two kinds of forms, and one kind has three pipelines, respectively attracts to rinse altogether With pipeline, aspirating pipeline and water supply conduit；Another kind has two pipelines, respectively attracts to rinse common pall, aspirated and water sending Common pall.Relative to background technology, pipeline is not only simplified to three even two by this programme, is effectively saved and is produced into This, what is more important with suction is that same passage, pipeline are less susceptible to block due to irrigation.

The first electronics choke apparatus can be delayed by the first delayer control set in perfusion suction pump main frame to stop Only；The pump is controlled by the automatic controller set in perfusion suction pump main frame, after the first electronics choke apparatus, which is delayed, to be stopped, Pump automatically turns on the perfusion for carrying out certain time, and the infusion time is by the second delayer control for being set in perfusion suction pump main frame System.Above scheme is automatically controlled by irrigating suction pump main frame so that suction is cleaner, irrigation is more timely.

The first choice knob stopped on the perfusion suction pump main frame equipped with the delay of the first electronics choke apparatus, should First choice knob has multiple gears；The delay of the first electronics choke apparatus is also equipped with the perfusion suction pump main frame to stop The second selection knob of automatic filling time is controlled afterwards, and the second selection knob has multiple gears.Above structure can Time for being stopped according to the actual conditions selection suction delay such as the perfusion suction length of share pipe, size and with automatic filling Time, meet different use needs.

Second threeway is "T"-shaped, and the second interface of second threeway and the 3rd interface are located on straight line, second First check valve is installed at the first interface of threeway.Above structure combination electronics choke apparatus, it can be ensured that suction channel it is smooth The general character, and can effectively prevent aspirate from entering intrusion pipe.

The operation handle of the Gastrointestinal Endoscopes is split-type structural, aqueous vapor pipeline one end and the water on Gastrointestinal Endoscopes with aqueous vapor pipeline Tracheae pipeline connector is detachably connected, and the other end is detachably connected with Gastrointestinal Endoscopes main frame.Above structure is more easy to cleaning and sterilizing, after dismounting Aqueous vapor pipeline can concentrate independent washing and sterilizing or disposable.

Similarly, the operation handle of the Gastrointestinal Endoscopes and photoelectricity pipeline are split-type structural, photoelectricity pipeline one end and Gastrointestinal Endoscopes On photoelectricity pipe joint be detachably connected, the other end is detachably connected with Gastrointestinal Endoscopes main frame.

For the ease of arrangement, make compact integral structure, device security, be easy to observe and operate, in the aqueous vapor management The heart is arranged on the bottom of Gastrointestinal Endoscopes main frame, and the cold light source coordinated with photoelectricity pipeline is arranged on the middle part of Gastrointestinal Endoscopes main frame, at video Reason device is arranged on the top of Gastrointestinal Endoscopes main frame, and display is set at the top of Gastrointestinal Endoscopes main frame.

The beneficial effects of the invention are as follows：

1) due to the aqueous vapor machine using contactless aqueous vapor electronic button and the original contact of attraction electronic button substitution Tool button and attraction mechanical button, the sterilization of internal duct easy cleaning, aqueous vapor electronic button and attraction electronic button are not required to individually clearly Wash；

2) automatically controlling by the system, make irrigation and be pumped in the shared pipeline of Gastrointestinal Endoscopes, supply gas and send Water can also share a pipeline, and the pipeline inside such endoscope is reduced to three even two by traditional four, adds In aqueous vapor button and attract there is no perforate at button, so as to effectively reduce the complexity of pipeline so that clinical more easy cleaning disappears Poison, more convenient operation, production cost are lower；

3) the system aqueous vapor pipeline can separate with Gastrointestinal Endoscopes, such aqueous vapor pipeline choosing multiple method individually cleaning sterilizing Multiplexing or disposable afterwards；The system photoelectricity pipeline can separate with Gastrointestinal Endoscopes, it is not necessary to which individually cleaning sterilizes, and only need to change one Secondary property aseptic plastic overcoat；

4) Gastrointestinal Endoscopes after being separated with aqueous vapor pipeline and photoelectricity pipeline, " Gastrointestinal Endoscopes " length for needing Integral cleaning to sterilize is short, Internal duct is few and straight, only biopsy opening one is open, and is more suitable for automatically washing and sterilizing equipment cleaning and sterilizing, can so ensure The effect of cleaning and sterilizing, greatly reduces human cost again；

5) due to sharing a pipeline using contactless electronic control mode and perfusion suction so that the system is aspirated It is not easily blocked.

6) operating habit of medical worker is not changed, medical worker receives easy.

Brief description of the drawings

Fig. 1 is the structural representation of the present invention.

Fig. 2 is the structural representation of perfusion suction pump main frame.

Fig. 3 is the first form structure schematic diagram of aqueous vapor administrative center.

Fig. 4 is second of form structure schematic diagram of aqueous vapor administrative center.

Fig. 5 is the third form structure schematic diagram of aqueous vapor administrative center.

Fig. 6 is the 4th kind of form structure schematic diagram of aqueous vapor administrative center.

Fig. 7 is the 5th kind of form structure schematic diagram of aqueous vapor administrative center.

Fig. 8 is the structural representation of three passage external pipelines of Gastrointestinal Endoscopes and aqueous vapor channel interior.

Fig. 9 is the structural representation of background technology.

Embodiment

The invention will be further described with reference to the accompanying drawings and examples：

Embodiment 1

As shown in Figure 1 and Figure 2, in the bottom of Gastrointestinal Endoscopes main frame 17 setting aqueous vapor administrative center 12, Gastrointestinal Endoscopes main frame 17 Portion sets cold light source 32, and the top of Gastrointestinal Endoscopes main frame 17 sets video processor 14, and the top of Gastrointestinal Endoscopes main frame 17 sets display Device 16.The photoelectricity pipeline 19 and aqueous vapor pipeline 20 of Gastrointestinal Endoscopes separate, and operation handle and the aqueous vapor pipeline 20 of Gastrointestinal Endoscopes 11 can be Split-type structural or monolithic construction；The operation handle of Gastrointestinal Endoscopes 11 and photoelectricity pipeline 19 can be split-type structurals, It can also be monolithic construction.With one end of photoelectricity pipeline 19 that cold light source 32 coordinates and the photoelectricity pipe joint 22 on Gastrointestinal Endoscopes 11 It is connected, the other end is connected with Gastrointestinal Endoscopes main frame 17；The one end of aqueous vapor pipeline 20 is connected with the aqueous vapor pipe joint 21 on Gastrointestinal Endoscopes 11, The other end is connected with Gastrointestinal Endoscopes main frame 17.Certainly, one can be made as equivalent replacement, photoelectricity pipeline 19 and aqueous vapor pipeline 20 Body, it can also take other form and be split；Aqueous vapor pipeline 20 preferably detachably connects with Gastrointestinal Endoscopes 11 and Gastrointestinal Endoscopes main frame 17 Connect, cleaned in order to pull down.

As shown in Figure 1 and Figure 2, electronics is provided with the operation handle of Gastrointestinal Endoscopes 11 and attracts button 15 and electronics aqueous vapor button 18, electronics attracts button 15 and electronics aqueous vapor button 18 to substitute the mechanical botton of traditional structure respectively, and position is constant.Electronics Aqueous vapor button 18 and electronics attract button 15 not to be in contact with aqueous vapor, are not required to dismantle during cleaning and sterilizing.Electronics attracts button 15 And electronics aqueous vapor button 18 is connected by photoelectricity pipeline 19 with Gastrointestinal Endoscopes main frame 17.

The aspirated and water sending pipeline and its device of aqueous vapor administrative center 12 have five kinds of structure types, are specially：

The first：As shown in figure 3, aqueous vapor administrative center 12 is filled by flow pipe 31, the second check valve 23, the second electronics choked flow Put 25, aqueous vapor bottle 29, snorkel 30, the 3rd check valve 24, the 3rd electronics choke apparatus 26, air pump or carbon dioxide pump 27, Air inlet pipe 32, bleeder pipe and the 4th electronics choke apparatus 28 etc. are formed.Wherein, after flow pipe 31 connects the second check valve 23, stretch Enter in aqueous vapor bottle 29, close to the bottom of bottle of aqueous vapor bottle 29, the import of the flow pipe 31 is located under liquid level for the import of flow pipe 31. Second electronics choke apparatus 25 is set on the flow pipe 31 between two check valves 23 and aqueous vapor bottle 29.The series connection of snorkel 30 the 3rd is single To after valve 24, also stretch into aqueous vapor bottle 29, the import of snorkel 30 is located at the top in aqueous vapor bottle 29, the import of the snorkel 30 On liquid level.3rd electronics choke apparatus 26 is set on the snorkel 30 between the 3rd check valve 24 and aqueous vapor bottle 29. The outside setting air pump or carbon dioxide pump 27 of aqueous vapor bottle 29, the air pump or carbon dioxide pump 27 are by air inlet pipe 32 in water Connected between gas cylinder 29 and the 3rd electronics choke apparatus 26 with snorkel, be connected to and put before air inlet pipe 32 connects with snorkel 30 Tracheae, the 4th electronics choke apparatus 28 is set on the bleeder pipe.

As shown in Figure 1, Figure 3, the second electronics choke apparatus 25, the 3rd electronics choke apparatus 26 and the 4th electronics choke apparatus 28 are controlled by electronics aqueous vapor button 18, flicking electronics aqueous vapor button 18, and the 3rd electronics choke apparatus 26 is opened, the resistance of the second electronics The stream electronics choke apparatus 28 of device 25 and the 4th is closed, and is supplied gas into Gastrointestinal Endoscopes 11 by snorkel 30, is pressed again by electronics aqueous vapor Button 18, the second electronics choke apparatus 25 are opened, and the 3rd electronics choke apparatus 26 and the 4th electronics choke apparatus 28 are closed, by sending Water pipe 31 send water to rinse camera lens to the inner water-supply of Gastrointestinal Endoscopes 11, realization.

Second：As shown in figure 4, aqueous vapor administrative center 12 is filled by flow pipe 31, the second check valve 23, the second electronics choked flow Put 25, aqueous vapor bottle 29, snorkel 30, the 3rd check valve 24, the 3rd electronics choke apparatus 26, air pump or carbon dioxide pump 27, The grade of 32 and the 4th electronics choke apparatus of air inlet pipe 28 is formed.Flow pipe 31 is connected after the second check valve 23, is stretched into aqueous vapor bottle 29, Second electronics choke apparatus 25 is set on the flow pipe 31 between the second check valve 23 and aqueous vapor bottle 29, the series connection of snorkel 30 the After three check valves 24, also stretch into aqueous vapor bottle 29, is set on the snorkel 30 between the 3rd check valve 24 and aqueous vapor bottle 29 Three electronics choke apparatus 26.In the outside of aqueous vapor bottle 29, air pump or carbon dioxide pump 27, the air pump or carbon dioxide are set Pump 27 is connected by air inlet pipe 32 between aqueous vapor bottle 29 and the 3rd electronics choke apparatus 26 with snorkel, is set in air inlet pipe 32 4th electronics choke apparatus 28.

As Figure 1 and Figure 4, the second electronics choke apparatus 25, the 3rd electronics choke apparatus 26 and the 4th electronics choke apparatus 28 control by electronics aqueous vapor button 18, flicking electronics aqueous vapor button 18, the 3rd electronics choke apparatus 26 and the 4th electronics choked flow Device 28 is opened, the second electronics choke apparatus 25 is closed, and is supplied gas by snorkel 30 into Gastrointestinal Endoscopes 11；Pressed again by electronics aqueous vapor Button 18, the second electronics choke apparatus 25 and the 4th electronics choke apparatus 28 are opened, and the 3rd electronics choke apparatus 26 is closed, by sending Water pipe 31 send water to rinse camera lens to the inner water-supply of Gastrointestinal Endoscopes 11, realization.

The third：As shown in figure 5, aqueous vapor administrative center 12 is filled by flow pipe 31, the second check valve 23, the second electronics choked flow Put 25, aqueous vapor bottle 29, snorkel 30, the 3rd check valve 24, the 3rd electronics choke apparatus 26, air pump or the and of carbon dioxide pump 27 The grade of air inlet pipe 32 is formed.Flow pipe 31 is connected after the second check valve 23, is stretched into aqueous vapor bottle 29, in the second check valve 23 and aqueous vapor Second electronics choke apparatus 25 is set on the flow pipe 31 between bottle 29, and snorkel 30 is connected after the 3rd check valve 24, also stretched into In aqueous vapor bottle 29, the 3rd electronics choke apparatus 26 is set on the snorkel 30 between the 3rd check valve 24 and aqueous vapor bottle 29. The outside setting air pump or carbon dioxide pump 27 of aqueous vapor bottle 29, the air pump or carbon dioxide pump 27 are by air inlet pipe 32 in water Connected between gas cylinder 29 and the 3rd electronics choke apparatus 26 with snorkel.

As shown in Figure 1, shown in Figure 5, the second electronics choke apparatus 25 and the 3rd electronics choke apparatus 26 are by electronics aqueous vapor button 18 controls, flicking electronics aqueous vapor button 18, the 3rd electronics choke apparatus 26 is opened, the second electronics choke apparatus 25 is closed, and is passed through Snorkel 30 is supplied gas into Gastrointestinal Endoscopes 11, presses electronics aqueous vapor button 18 again, and the second electronics choke apparatus 25 is opened, the resistance of the 3rd electronics Stream device 26 is closed, by flow pipe 31 to the inner water-supply of Gastrointestinal Endoscopes 11.

4th kind：As shown in fig. 6, aqueous vapor administrative center 12 by flow pipe 31, the second check valve 23, aqueous vapor bottle 29, supply gas Pipe 30, the 3rd check valve 24, the 3rd electronics choke apparatus 26, air pump or carbon dioxide pump 27, the electronics of air inlet pipe 32 and the 4th The grade of choke apparatus 28 is formed.Flow pipe 31 is connected after the second check valve 23, is stretched into aqueous vapor bottle 29, and the series connection of snorkel 30 the 3rd is single To after valve 24, also stretch into aqueous vapor bottle 29, the 3rd electricity is set on the snorkel 30 between the 3rd check valve 24 and aqueous vapor bottle 29 Sub- choke apparatus 26.In the outside of aqueous vapor bottle 29, air pump or carbon dioxide pump 27, the air pump or carbon dioxide pump 27 are set Connected by air inlet pipe 32 between aqueous vapor bottle 29 and the 3rd electronics choke apparatus 26 with snorkel, and is set in air inlet pipe 32 Four electronics choke apparatus 28.

As shown in Fig. 1, Fig. 6, the 3rd electronics choke apparatus 26 and the 4th electronics choke apparatus 28 are by electronics aqueous vapor button 18 controls, flicking electronics aqueous vapor button 18, the 3rd electronics choke apparatus 26 and the 4th electronics choke apparatus 28 are opened, by supplying gas Pipe 30 is supplied gas into Gastrointestinal Endoscopes 11, presses electronics aqueous vapor button 18 again, and the 4th electronics choke apparatus 28 is opened, the 3rd electronics choked flow dress 26 closings are put, send water to rinse camera lens to the inner water-supply of Gastrointestinal Endoscopes 11, realization by flow pipe 31.

5th kind：As shown in fig. 7, aqueous vapor administrative center 12 by flow pipe 31, the second check valve 23, aqueous vapor bottle 29, supply gas Pipe 30, the 3rd check valve 24, the 3rd electronics choke apparatus 26, air pump or carbon dioxide pump 27, air inlet pipe 32, bleeder pipe and The grade of four electronics choke apparatus 28 is formed.Wherein, after flow pipe 31 connects the second check valve 23, stretch into aqueous vapor bottle 29, snorkel After 30 the 3rd check valves 24 of series connection, also stretch into aqueous vapor bottle 29, the snorkel 30 between the 3rd check valve 24 and aqueous vapor bottle 29 The 3rd electronics choke apparatus 26 of upper setting.Air pump or carbon dioxide pump 27 be set in the outside of aqueous vapor bottle 29, the air pump or Carbon dioxide pump 27 is connected by air inlet pipe 32 between aqueous vapor bottle 29 and the 3rd electronics choke apparatus 26 with snorkel, air inlet pipe Bleeder pipe is connected on 32, the 4th electronics choke apparatus 28 is set on the bleeder pipe.

As shown in Figure 1, Figure 7 shows, the 3rd electronics choke apparatus 26 and the 4th electronics choke apparatus 28 are by electronics aqueous vapor button 18 controls, flicking electronics aqueous vapor button 18, the 3rd electronics choke apparatus 26 is opened, the 4th electronics choke apparatus 28 is closed, and is passed through Snorkel 30 is supplied gas into Gastrointestinal Endoscopes 11.Electronics aqueous vapor button 18, the 3rd electronics choke apparatus 26 and the 4th electronics choked flow are pressed again Device 28 is closed, and send water to rinse camera lens to the inner water-supply of Gastrointestinal Endoscopes 11, realization by flow pipe 31.

As shown in Figures 1 to 8, in aqueous vapor pipeline 20 be provided with perfusion suction common-use tunnel, rinse camera lens send aquaporin and Three passages of plenum duct, the pipeline in the operation handle of Gastrointestinal Endoscopes 11 are adapted with the passage in aqueous vapor pipeline 20.Wherein, water is sent Passage is connected with the flow pipe 31 of aqueous vapor administrative center 12, and plenum duct is connected with the snorkel 30 of aqueous vapor administrative center 12；Stomach Colonoscopy biopsy opening communicates with perfusion suction common-use tunnel, and the port that perfusion suction common-use tunnel corresponds to the end of Gastrointestinal Endoscopes main frame 17 is Suction port, the suction port are connected with irrigating one of suction common pall 8, the other end and second of perfusion suction common pall 8 The 3rd interface connection of threeway 4, the second threeway 4 is preferably "T"-shaped, and the second interface of second threeway 4 and the 3rd interface are located at On straight line, the first check valve 3 is installed at the first interface of second threeway 4.The second interface of second threeway 4 passes through suction tube 5 are connected with the suction tube of negative pressure device, and the first electronics choke apparatus 7, the first interface of the second threeway 4 are installed on suction tube 5 Connect after the first check valve 3, be connected with intrusion pipe 2, pump 6 is set on intrusion pipe 2.The electronics choke apparatus 7 of pump 6 and first by Perfusion suction pump main frame 1 in aqueous vapor administrative center 12 is controlled, and the artificial start and stop of pump 6 are controlled by floor push 13.Pump 6 works When, the first electronics choke apparatus 7 is closed；When first electronics choke apparatus 7 is opened, pump 6 stops.

Preferably, the first electronics choke apparatus 7 is controlled by the first delayer set in perfusion suction pump main frame 1, and Can be delayed stopping, the first choice knob stopped on perfusion suction pump main frame 1 equipped with the delay of the first electronics choke apparatus 7 9, the first choice knob 9 has multiple gears, such as：First choice knob 9 divides 4 grades, and the shortest time is 0 second, most long Time is 3 seconds.Pump 6 is controlled by the automatic controller set in perfusion suction pump main frame 1, when the first electronics choke apparatus 7 is delayed After stopping, pump 6 automatically turns on the perfusion for carrying out certain time, and the infusion time is by second of setting in perfusion suction pump main frame 1 Delayer controls.Irrigate and control the automatic filling time after stopping on suction pump main frame 1 equipped with the delay of the first electronics choke apparatus 7 Second selection knob 10, the second selection knob 10 have multiple gears, such as：Second selection knob 10 divides 4 grades, most Short time is 0 second, and maximum duration is 4 seconds.

Operationally, the first electronics choke apparatus 7 attracts button 15 to control by electronics, presses electronics and attracts button 15, the One electronics choke apparatus 7 is opened, attracts to start；Unclamp electronics and attract button 15, the first electronics choke apparatus 7 closes, attracts to stop Only.

The operation principle of the present invention is as follows：

Delay dwell time is set by first choice knob 9, when pre-flush is set by the second selection knob 10 Between.Medical worker holds the operation handle of Gastrointestinal Endoscopes 11, and presses electronics and attract button 15, beats the first electronics choke apparatus 7 Open, pump 6 is closed, and in the presence of negative pressure device, realizes pumping function.After the completion of suction, release electronics attraction button 15, first Electronics choke apparatus 7 continues on certain time, until the first electronics choke apparatus 7 is closed；The now automatic start of pump 6, makes filling Fluid injection passes sequentially through intrusion pipe 2 and perfusion suction share pipe 8, and common-use tunnel is aspirated in the perfusion subsequently into Gastrointestinal Endoscopes, realizes pre- Rinse, pump 6 works several seconds and is automatically stopped；When needing irrigation, pin steps on floor push 13, and pump 6 is started working, and realizes and rinses, Step on how long rinse how long, Panasonic's floor push 13, rinse stop.

Preferably, each electronics choke apparatus is preferably electronics pipe clamp above；Pump 6 is preferably peristaltic pump.

Embodiment 2

Referring to figs. 1 to Fig. 8, in the present embodiment, Gastrointestinal Endoscopes 11 supply gas and sent water to share an aspirated and water sending common-use tunnel, i.e., Be provided with perfusion suction common-use tunnel and aspirated and water sending common-use tunnel in aqueous vapor pipeline 20, the pipeline in the operation handle of Gastrointestinal Endoscopes 11 with Passage in aqueous vapor pipeline 20 is adapted.Aspirated and water sending common-use tunnel is connected by pipeline with the first interface of the first threeway, the The second interface of one threeway is connected with flow pipe 31, and the 3rd interface of the first threeway is connected with snorkel 30.The present embodiment its Remaining structure is same as Example 1, will not be described here.

Embodiment 3

Referring to figs. 1 to Fig. 8, in the present embodiment, Gastrointestinal Endoscopes 11 supply gas and sent water to share an aspirated and water sending common-use tunnel, water Attraction channel is provided with air pipe 20, pair send aquaporin and aspirated and water sending common-use tunnel, the pipeline in the operation handle of Gastrointestinal Endoscopes 11 It is adapted with the passage in aqueous vapor pipeline 20, the suction port of attraction channel is connected with perfusion suction common pall 8 one, and perfusion is taken out The other end of common pall 8 is inhaled to be connected with the suction tube of negative pressure device with by suction tube 5.Pair send aquaporin to be connected with intrusion pipe 2, Aspirated and water sending common-use tunnel is connected by pipeline with the first interface of the first threeway, second interface and the flow pipe 31 of the first threeway Connection, the 3rd interface of the first threeway are connected with snorkel 30.Remaining structure of the present embodiment is same as Example 1, herein not Repeat.

Embodiment 4

Referring to figs. 1 to Fig. 8, attraction channel is provided with the present embodiment, in aqueous vapor pipeline 20, pair send aquaporin, plenum duct With send aquaporin, the pipeline in the operation handle of Gastrointestinal Endoscopes 11 is adapted with the passage in aqueous vapor pipeline 20.The attraction of attraction channel Mouth is connected with perfusion suction common pall 8 one, and the perfusion suction other end of common pall 8 is with passing through suction tube 5 and negative pressure device Suction tube connection, pair send aquaporin to be connected with intrusion pipe 2, and plenum duct is connected with snorkel 30, send aquaporin and flow pipe 31 connections.Remaining structure of the present embodiment is same as Example 1, will not be described here.

Preferred embodiment of the invention described in detail above.It should be appreciated that one of ordinary skill in the art without Creative work can is needed to make many modifications and variations according to the design of the present invention.Therefore, all technologies in the art Personnel are available by logical analysis, reasoning, or a limited experiment on the basis of existing technology under this invention's idea Technical scheme, all should be in the protection domain being defined in the patent claims.

Claims (15)

1. a kind of novel gastroenteritic mirror system, including Gastrointestinal Endoscopes (11), Gastrointestinal Endoscopes main frame (17) and aqueous vapor administrative center (12), it is special Sign is：The suction port of the Gastrointestinal Endoscopes (11) is connected by suction tube (5) with the suction tube of negative pressure device, in suction tube (5) The first electronics choke apparatus (7) of upper installation；In the operation handle of the Gastrointestinal Endoscopes (11) be provided with electronics attract button (15) and Electronics aqueous vapor button (18), electronics attract button (15) and electronics aqueous vapor button (18) to pass through photoelectricity pipeline (19) and Gastrointestinal Endoscopes Main frame (17) is connected, and the first electronics choke apparatus (7) attracts button (15) to control by electronics, presses electronics and attracts button (15), First electronics choke apparatus (7) is opened, attracts to start, and unclamps electronics and attracts button (15), the first electronics choke apparatus (7) closes Close, attract to stop；Flicking electronics aqueous vapor button (18), by the snorkels (30) of aqueous vapor administrative center (12) to Gastrointestinal Endoscopes (11) Inside supply gas, press electronics aqueous vapor button (18) again, sent by the flow pipe (31) of aqueous vapor administrative center (12) into Gastrointestinal Endoscopes (11) Water.

2. novel gastroenteritic mirror system according to claim 1, it is characterised in that：The aqueous vapor administrative center (12) send water After managing (31) the second check valve of series connection (23), stretch into aqueous vapor bottle (29), between the second check valve (23) and aqueous vapor bottle (29) Flow pipe (31) on the second electronics choke apparatus (25) is set, snorkel (30) is connected after the 3rd check valve (24), is also stretched into In aqueous vapor bottle (29), the 3rd electronics choked flow is set to fill on the snorkel (30) between the 3rd check valve (24) and aqueous vapor bottle (29) Put (26)；Air inlet pipe is connected to bleeder pipe on (32), and the 4th electronics choke apparatus (28), second electronics are set on the bleeder pipe Choke apparatus (25), the 3rd electronics choke apparatus (26) and the 4th electronics choke apparatus (28) are controlled by electronics aqueous vapor button (18) System, flicking electronics aqueous vapor button (18), the 3rd electronics choke apparatus (26) opening, the second electronics choke apparatus (25) and the 4th electricity Sub- choke apparatus (28) is closed, and is supplied gas by snorkel (30) into Gastrointestinal Endoscopes (11), presses electronics aqueous vapor button (18) again, and second Electronics choke apparatus (25) is opened, and the 3rd electronics choke apparatus (26) and the 4th electronics choke apparatus (28) are closed, by sending water (31) are managed to Gastrointestinal Endoscopes (11) inner water-supply.

3. novel gastroenteritic mirror system according to claim 1, it is characterised in that：The aqueous vapor administrative center (12) send water After managing (31) the second check valve of series connection (23), stretch into aqueous vapor bottle (29), between the second check valve (23) and aqueous vapor bottle (29) Flow pipe (31) on the second electronics choke apparatus (25) is set, snorkel (30) is connected after the 3rd check valve (24), is also stretched into In aqueous vapor bottle (29), the 3rd electronics choked flow is set to fill on the snorkel (30) between the 3rd check valve (24) and aqueous vapor bottle (29) Put (26)；4th electronics choke apparatus (28), the second electronics choke apparatus (25), the 3rd electricity are set in air inlet pipe (32) Sub- choke apparatus (26) and the 4th electronics choke apparatus (28) control by electronics aqueous vapor button (18), flicking electronics aqueous vapor button (18), the 3rd electronics choke apparatus (26) and the 4th electronics choke apparatus (28) are opened, the second electronics choke apparatus (25) is closed, By snorkel (30) to supplying gas in Gastrointestinal Endoscopes (11), press electronics aqueous vapor button (18) again, the second electronics choke apparatus (25) and 4th electronics choke apparatus (28) is opened, and the 3rd electronics choke apparatus (26) is closed, by flow pipe (31) to Gastrointestinal Endoscopes (11) Inner water-supply.

4. novel gastroenteritic mirror system according to claim 1, it is characterised in that：The aqueous vapor administrative center (12) send water After managing (31) the second check valve of series connection (23), stretch into aqueous vapor bottle (29), between the second check valve (23) and aqueous vapor bottle (29) Flow pipe (31) on the second electronics choke apparatus (25) is set, snorkel (30) is connected after the 3rd check valve (24), is also stretched into In aqueous vapor bottle (29), the 3rd electronics choked flow is set to fill on the snorkel (30) between the 3rd check valve (24) and aqueous vapor bottle (29) Put (26)；The second electronics choke apparatus (25) and the 3rd electronics choke apparatus (26) are controlled by electronics aqueous vapor button (18) System, flicking electronics aqueous vapor button (18), the 3rd electronics choke apparatus (26) is opened, the second electronics choke apparatus (25) is closed, and is led to To cross snorkel (30) to supply gas into Gastrointestinal Endoscopes (11), press electronics aqueous vapor button (18) again, the second electronics choke apparatus (25) is opened, 3rd electronics choke apparatus (26) is closed, by flow pipe (31) to Gastrointestinal Endoscopes (11) inner water-supply.

5. novel gastroenteritic mirror system according to claim 1, it is characterised in that：The aqueous vapor administrative center (12) send water After managing (31) the second check valve of series connection (23), stretching into aqueous vapor bottle (29), snorkel (30) is connected after the 3rd check valve (24), Stretch into aqueous vapor bottle (29), set the 3rd electronics to hinder on the snorkel (30) between the 3rd check valve (24) and aqueous vapor bottle (29) Flow device (26)；In air inlet pipe (32) set the 4th electronics choke apparatus (28), the 3rd electronics choke apparatus (26) and 4th electronics choke apparatus (28) controls by electronics aqueous vapor button (18), flicking electronics aqueous vapor button (18), the resistance of the 3rd electronics Flow device (26) and the 4th electronics choke apparatus (28) is opened, supplied gas by snorkel (30) into Gastrointestinal Endoscopes (11), again by electricity Gravid edema button (18), the 4th electronics choke apparatus (28) are opened, and the 3rd electronics choke apparatus (26) is closed, and passes through flow pipe (31) to Gastrointestinal Endoscopes (11) inner water-supply.

6. novel gastroenteritic mirror system according to claim 1, it is characterised in that：The aqueous vapor administrative center (12) send water After managing (31) the second check valve of series connection (23), stretching into aqueous vapor bottle (29), snorkel (30) is connected after the 3rd check valve (24), Stretch into aqueous vapor bottle (29), set the 3rd electronics to hinder on the snorkel (30) between the 3rd check valve (24) and aqueous vapor bottle (29) Flow device (26)；Air inlet pipe is connected to bleeder pipe on (32), the 4th electronics choke apparatus (28) of setting on the bleeder pipe, and the described 3rd Electronics choke apparatus (26) and the 4th electronics choke apparatus (28) are controlled by electronics aqueous vapor button (18), and flicking electronics aqueous vapor is pressed Button (18), the 3rd electronics choke apparatus (26) is opened, the 4th electronics choke apparatus (28) is closed, by snorkel (30) to stomach and intestine Supplied gas in mirror (11), press electronics aqueous vapor button (18), the 3rd electronics choke apparatus (26) and the 4th electronics choke apparatus (28) again Close, by flow pipe (31) to Gastrointestinal Endoscopes (11) inner water-supply.

7. novel gastroenteritic mirror system according to any one of claims 1 to 6, it is characterised in that：The Gastrointestinal Endoscopes (11) are supplied gas With send water to share an aspirated and water sending common-use tunnel, the aspirated and water sending common-use tunnel passes through pipeline and the first interface of the first threeway Connection, the second interface of the first threeway are connected with flow pipe (31), and the 3rd interface of the first threeway is connected with snorkel (30).

8. novel gastroenteritic mirror system according to any one of claims 1 to 6, it is characterised in that：The suction of the Gastrointestinal Endoscopes (11) Draw and rinse and share a perfusion suction common-use tunnel, perfusion suction common-use tunnel and the one of perfusion suction common pall (8) Head connection, the other end of perfusion suction common pall (8) are connected with the 3rd interface of the second threeway (4), second threeway (4) Second interface be connected by suction tube (5) with the suction tube of negative pressure device, the first interface of the second threeway (4) series connection first is single To after valve (3), it is connected with intrusion pipe (2), pump (6) is set on intrusion pipe (2), when pump (6) works, the first electronics choke apparatus (7) close；When first electronics choke apparatus (7) is opened, pump (6) stops.

9. according to any described novel gastroenteritic mirror system of claim 7, it is characterised in that：The attraction of the Gastrointestinal Endoscopes (11) and Rinse and share a perfusion suction common-use tunnel, a company of perfusion suction common-use tunnel and perfusion suction common pall (8) Connecing, the other end of perfusion suction common pall (8) is connected with the 3rd interface of the second threeway (4), and the of second threeway (4) Two interfaces are connected by suction tube (5) with the suction tube of negative pressure device, first interface the first check valve of series connection of the second threeway (4) (3) after, it is connected with intrusion pipe (2), pump (6) is set on intrusion pipe (2), when pump (6) works, the first electronics choke apparatus (7) Close；When first electronics choke apparatus (7) is opened, pump (6) stops.

10. novel gastroenteritic mirror system according to claim 9, it is characterised in that：The first electronics choke apparatus (7) by Irrigate the first delayer control set in suction pump main frame (1), and the stopping that being delayed；The pump (6) is by perfusion suction pump The automatic controller control set in main frame (1), after the first electronics choke apparatus (7), which is delayed, to be stopped, pump (6) automatically turn on into The perfusion of row certain time, the infusion time are controlled by the second delayer set in perfusion suction pump main frame (1).

11. novel gastroenteritic mirror system according to claim 10, it is characterised in that：In the perfusion suction pump main frame (1) The upper first choice knob (9) stopped equipped with the delay of the first electronics choke apparatus (7), the first choice knob (9) have Multiple gears；It is also equipped with controlling automatic fill after the delay of the first electronics choke apparatus (7) stops on the perfusion suction pump main frame (1) The second selection knob (10) of time is noted, the second selection knob (10) has multiple gears.

12. novel gastroenteritic mirror system according to claim 11, it is characterised in that：Second threeway (4) to be "T"-shaped, The second interface of second threeway (4) and the 3rd interface are located on straight line, installation the at the first interface of the second threeway (4) One check valve (3).

13. the novel gastroenteritic mirror system according to claim 9 or 10 or 11 or 12, it is characterised in that：The Gastrointestinal Endoscopes (11) operation handle is split-type structural, aqueous vapor pipeline (20) one end and the aqueous vapor on Gastrointestinal Endoscopes (11) with aqueous vapor pipeline (20) Pipe joint (21) is detachably connected, and the other end is detachably connected with Gastrointestinal Endoscopes main frame (17).

14. the novel gastroenteritic mirror system according to claim 9 or 10 or 11 or 12, it is characterised in that：The Gastrointestinal Endoscopes (11) operation handle is split-type structural, photoelectricity pipeline (19) one end and the photoelectricity on Gastrointestinal Endoscopes (11) with photoelectricity pipeline (19) Pipe joint (22) is detachably connected, and the other end is detachably connected with Gastrointestinal Endoscopes main frame (17).

15. the novel gastroenteritic mirror system according to claim 9 or 10 or 11 or 12, it is characterised in that：The aqueous vapor management Center (12) is arranged on the bottom of Gastrointestinal Endoscopes main frame (17), and the cold light source (32) coordinated with photoelectricity pipeline (19) is arranged on Gastrointestinal Endoscopes The middle part of main frame (17), video processor (14) is arranged on the top of Gastrointestinal Endoscopes main frame (17), on the top of Gastrointestinal Endoscopes main frame (17) Portion sets display (16).