WO2012100663A1 - 内窥镜系统搭载部及内窥镜系统工作站 - Google Patents
内窥镜系统搭载部及内窥镜系统工作站 Download PDFInfo
- Publication number
- WO2012100663A1 WO2012100663A1 PCT/CN2012/000135 CN2012000135W WO2012100663A1 WO 2012100663 A1 WO2012100663 A1 WO 2012100663A1 CN 2012000135 W CN2012000135 W CN 2012000135W WO 2012100663 A1 WO2012100663 A1 WO 2012100663A1
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- WO
- WIPO (PCT)
- Prior art keywords
- endoscope system
- mounting portion
- system mounting
- trolley
- opening
- Prior art date
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Classifications
-
- A—HUMAN NECESSITIES
- A61—MEDICAL OR VETERINARY SCIENCE; HYGIENE
- A61B—DIAGNOSIS; SURGERY; IDENTIFICATION
- A61B1/00—Instruments for performing medical examinations of the interior of cavities or tubes of the body by visual or photographical inspection, e.g. endoscopes; Illuminating arrangements therefor
- A61B1/00002—Operational features of endoscopes
- A61B1/00043—Operational features of endoscopes provided with output arrangements
- A61B1/00045—Display arrangement
-
- A—HUMAN NECESSITIES
- A61—MEDICAL OR VETERINARY SCIENCE; HYGIENE
- A61B—DIAGNOSIS; SURGERY; IDENTIFICATION
- A61B50/00—Containers, covers, furniture or holders specially adapted for surgical or diagnostic appliances or instruments, e.g. sterile covers
- A61B50/10—Furniture specially adapted for surgical or diagnostic appliances or instruments
-
- A—HUMAN NECESSITIES
- A61—MEDICAL OR VETERINARY SCIENCE; HYGIENE
- A61B—DIAGNOSIS; SURGERY; IDENTIFICATION
- A61B50/00—Containers, covers, furniture or holders specially adapted for surgical or diagnostic appliances or instruments, e.g. sterile covers
- A61B50/10—Furniture specially adapted for surgical or diagnostic appliances or instruments
- A61B50/13—Trolleys, e.g. carts
-
- A—HUMAN NECESSITIES
- A61—MEDICAL OR VETERINARY SCIENCE; HYGIENE
- A61B—DIAGNOSIS; SURGERY; IDENTIFICATION
- A61B50/00—Containers, covers, furniture or holders specially adapted for surgical or diagnostic appliances or instruments, e.g. sterile covers
- A61B50/10—Furniture specially adapted for surgical or diagnostic appliances or instruments
- A61B50/15—Mayo stands; Tables
-
- A—HUMAN NECESSITIES
- A61—MEDICAL OR VETERINARY SCIENCE; HYGIENE
- A61B—DIAGNOSIS; SURGERY; IDENTIFICATION
- A61B1/00—Instruments for performing medical examinations of the interior of cavities or tubes of the body by visual or photographical inspection, e.g. endoscopes; Illuminating arrangements therefor
- A61B1/00002—Operational features of endoscopes
- A61B1/00039—Operational features of endoscopes provided with input arrangements for the user
- A61B1/00042—Operational features of endoscopes provided with input arrangements for the user for mechanical operation
-
- A—HUMAN NECESSITIES
- A61—MEDICAL OR VETERINARY SCIENCE; HYGIENE
- A61B—DIAGNOSIS; SURGERY; IDENTIFICATION
- A61B1/00—Instruments for performing medical examinations of the interior of cavities or tubes of the body by visual or photographical inspection, e.g. endoscopes; Illuminating arrangements therefor
- A61B1/00147—Holding or positioning arrangements
-
- A—HUMAN NECESSITIES
- A61—MEDICAL OR VETERINARY SCIENCE; HYGIENE
- A61B—DIAGNOSIS; SURGERY; IDENTIFICATION
- A61B50/00—Containers, covers, furniture or holders specially adapted for surgical or diagnostic appliances or instruments, e.g. sterile covers
- A61B50/10—Furniture specially adapted for surgical or diagnostic appliances or instruments
- A61B2050/105—Cabinets
-
- A—HUMAN NECESSITIES
- A61—MEDICAL OR VETERINARY SCIENCE; HYGIENE
- A61B—DIAGNOSIS; SURGERY; IDENTIFICATION
- A61B50/00—Containers, covers, furniture or holders specially adapted for surgical or diagnostic appliances or instruments, e.g. sterile covers
- A61B50/10—Furniture specially adapted for surgical or diagnostic appliances or instruments
- A61B50/18—Cupboards; Drawers therefor
- A61B2050/185—Drawers
Definitions
- the present invention relates to the field of medical device technology, and in particular to an endoscope system mounting portion and a workstation for integrating a trolley. Background technique:
- an endoscope is sometimes required for human intervention diagnosis and treatment, that is, an endoscope is inserted into a body cavity, and an optical component provided at the tip end of the endoscope is used for observation in a body cavity.
- the medical equipment connected to the endoscope was placed on a trolley.
- the endoscope is a device that needs to be inserted into a human body, it is generally required to be high in hygiene.
- the endoscope apparatus is basically in the form of a trolley.
- displays and other ancillary equipment are often used in addition to endoscopic equipment.
- they can be set on the trolley or on another trolley. Doing so will have an impact on the overall layout of the treatment area.
- a large number of wires are required between the devices, it is not necessary to say that in the case of using multiple trolleys, most of them need to be routed on the surface, which may make the ground wiring messy.
- Even with a single trolley integrated wiring there will be a large amount of wiring exposed on the outer surface of the trolley. In this way, not only will the patient feel nervous, but it will also cause inconvenience to the operation of the doctor or nurse.
- Japanese Laid-Open Patent Publication No. 2001-120492 discloses an endoscope apparatus.
- a cantilever-shaped display bracket is arranged at the upper end of the trolley, and the display bracket can be rotated within a certain angle, so that the doctor can adjust according to the habit.
- a chair is added to the lower part of the trolley so that the doctor can sit and check during a long inspection.
- a display stand is provided on the trolley, but the display stand also affects the operation of the doctor to some extent.
- setting the display on the trolley makes it inconvenient for the medical staff to observe the endoscopic image.
- setting a large number of peripheral medical treatment machines on one trolley is difficult to remove and affects the heat dissipation of the machine.
- Japanese Laid-Open Patent Publication No. 2010-5256 discloses a vehicle for an endoscope in which an upper portion of a display and an endoscope holder are provided, and a cover for the outside is additionally provided. A plurality of zippers are provided at the front of the cover to form an opening window, which can be opened or closed as needed.
- a cover By providing a cover, the various devices mounted in the trolley are more reliably protected from environmental pollution, and various cables can be placed in the cover.
- the part of the car, the endoscope bracket can be removed, which makes the adjustment of the trolley more convenient.
- the trolley is also problematic in design.
- the design of the zipper makes the opening operation not smooth, and the zipper is easily damaged.
- the cover is provided, which affects the heat dissipation and deteriorates the heat dissipation of the entire device.
- the overall stability of the trolley and the observation device in the medical treatment environment is not good, and the line integration is lacking.
- Japanese Laid-Open Patent Publication No. Hei 6-245895 discloses a storage cart for an endoscope system structure device, which is designed as a box structure in order to prevent contamination of the machine. Openings are provided at the front and rear of the car for easy wiring.
- the isolation of the housing is indeed used to protect the instrument, but its design also has some shortcomings. That is, the peripheral devices for diagnosis and treatment are exposed to the outside of the trolley, causing confusion in the line.
- the device is mounted on a trolley or shelf and exposed to the external environment.
- the power supply lines and signal lines between the devices are staggered. Even if the display is set on the trolley, the position of the monitor can not be greatly adjusted due to the display on the trolley.
- the separate use of the vertical display bracket will also give the doctor an operation. It is inconvenient and makes the whole environment seem confusing. Summary of the invention:
- the present invention has been made in view of the above problems, and it is an object of the invention to provide an endoscope system mounting portion which is excellent in integrity and which does not expose a cable. Another object is to provide a workstation that can integrate the endoscope system mounting portion.
- an endoscope system mounting unit is provided, and the endoscope system mounting portion is provided with a bogie storage unit for accommodating a bogie for mounting at least an endoscope driving device Medical equipment inside.
- the cart can be housed in the cart housing portion of the endoscope system mounting portion.
- the various cables that are originally messy on the trolley can be hidden, and the device is good overall.
- it since it is possible to install only a small amount of equipment in the medical examination room and does not make the treatment room look messy, it can provide a more convenient and comfortable operating environment for medical personnel, and comprehensively improve the quality and image of the hospital. At the same time, it does not make patients feel fear.
- an endoscope system mounting unit wherein the cart housing unit is a recessed portion that is provided in a rearward opening of the endoscope system mounting unit, and the endoscope system is mounted on the endoscope system.
- An opening that communicates with the vehicle storage unit is provided at a position corresponding to the vehicle storage unit at the front portion, and the medical treatment device mounted on the vehicle can be operated through the opening, and the opening is provided with the opening The door body of the opening can be closed.
- the medical personnel can open the door and directly operate the equipment on the trolley.
- the operability of the endoscope system mounting portion can be improved.
- an endoscope system mounting portion wherein the door body is composed of a first door body and a second door body, and the first door body is provided on a medical treatment device on the vehicle. Commonly used 3 ⁇ 4 and / or the corresponding position of the socket. Further, it is preferable that the first door body is smaller than the second door body.
- the first door body is opened, and the exposed area of the trolley is reduced, and the excessively exposed trolley is reduced, thereby causing discomfort to the patient.
- the first and second door bodies are simultaneously opened.
- the first door body is smaller than the second door body, only opening the smaller first door body can better reduce the exposed area of the trolley, and is more conducive to making the entire device appear tidy and reducing the patient's discomfort.
- the endoscope system mounting portion is further provided with a storage space provided with an opening at a front portion of the endoscope system mounting portion, and a slidable storage space door body is provided at the opening .
- equipment such as ESG-100, AFU-100.
- a suction tube temporary storage area is further provided at a front portion of the endoscope system mounting portion, and the suction tube temporary storage area is a bottomed rubber cap, and the rubber cap is provided with the endoscope system A hole in the front of the mounting portion that is inserted into the tip of the suction tube.
- the temporary storage area of the suction tube provides a place for temporary storage of the suction tube during the endoscopic exchange.
- the endoscope system mounting portion further includes a suction duct through which the suction tube is inserted, and the suction duct is provided inside the endoscope mounting portion from the front side to the rear side of the endoscope system mounting portion.
- An engaging portion that can be engaged with the engaging projection to restrict the suction pipe from being pulled outward is provided.
- the engagement between the engaging projection and the engaging portion is such that the suction pipe is inserted into the space in which the suction pipe is housed, and the engagement pipe is rotated to attract the engagement projection and the engagement portion.
- This arrangement also makes the suction line easy to disassemble (using a knob structure, one twist, one pull for easy disassembly, no special tools required).
- an endoscope system mounting portion is provided, and a cable management box is further provided on the endoscope system mounting portion, and a rear portion of the cable management box communicates with the trolley storage portion, and the cable is connected
- the box is provided with an opening at a front portion of the endoscope system mounting portion, and a cable box door body is disposed at the opening of the cable box, and a cable retracting damping mechanism is disposed on the cable box door.
- Another technical solution of the present invention provides an endoscope system mounting portion, the line retracting damping
- the mechanism is disposed on the upper part of the wire box door body, and is composed of a plurality of sheet rubber bodies, and a plurality of sheet rubber bodies are arranged in the horizontal direction on the wire box door body, and each piece of rubber body is used for the reason The cable that is retracted by the wire box door is damped.
- a bogie guiding mechanism for guiding a bogie is provided in the recess, and the bogie guiding mechanism is provided at a bottom of the W portion and has a shape corresponding to a wheel of the bogie.
- an endoscope system mounting portion further includes at least one of: a sub-display disposed at an upper portion of the endoscope system mounting portion, and the endoscope system a pedal attached to a lower portion of the mounting portion, a white balance cap provided at a side portion of the endoscope system mounting portion, and a suction bottle provided at a rear portion of the endoscope system mounting portion, and provided at a bottom portion of the endoscope system mounting portion Adjust the foot.
- an endoscope system mounting portion wherein the endoscope system mounting portion further includes a flat first end surface, and the first end surface is provided with at least one coupling opening, and the combination There is a drawer or hood at the opening.
- an endoscope system mounting unit includes an elongated structure, and the cart storage unit is provided near one end of the endoscope system mounting unit.
- a main display holder for supporting the main display is provided near the other end of the endoscope system mounting portion.
- an endoscope system mounting portion having an elongated shape and a main display
- the main display holder is provided at one end of the endoscope system mounting portion
- the main display holder is provided at the other end.
- An integrated structure of an endoscope system mounting portion having a workstation structure.
- the main display bracket comprises a main strut and a universal adjusting mechanism formed by a plurality of sub-struts disposed at an upper end of the main strut, wherein the universal adjusting mechanism is provided for holding the universal adjusting mechanism in the adjusted position
- the damper is provided at an end portion of the endoscope system mounting portion in the front-rear direction, and the sub-strut is along the front portion across the upper portion of the endoscope system mounting portion Extend in the rear direction.
- the main strut is provided at the end portion in the width direction of the endoscope system mounting portion, and the sub-strut as the cantilever portion extends toward the outside of the endoscope mounting portion, in order to secure the entire endoscope system
- the stability of the solution requires a separate technical solution for setting the weight structure.
- the sub-strut as the cantilever portion can be extended above the width direction of the endoscope system mounting portion, so that the entire system can be made.
- the center of gravity is relatively stable, and with the weight of the main strut itself, the weight portion of the original technical solution can be eliminated, which can increase the stability of the overall center of gravity.
- the installation is also more convenient, and also increases the use space of the front console.
- the main display bracket includes a main strut and a universal adjusting mechanism formed by a plurality of sub-struts disposed at an upper end of the main strut, the universal adjusting In the mechanism, a damper for holding the universal adjustment mechanism at the adjusted position is provided, and the endoscope system mounting portion is provided with a weight for preventing the endoscope system mounting portion from tipping over.
- a main structure bracket structure of a specific structure is provided.
- an endoscope system workstation includes an operation unit and the endoscope system mounting unit, and the endoscope system mounting unit and the operation unit are combined by combining them with each other. Institutions, combined.
- the connection method is not limited and can be connected in any way.
- an endoscope system workstation including an operation unit and an endoscope system mounting portion, wherein a mounting portion coupling half is provided at the coupling opening, the mounting portion engaging a half body protruding from the endoscope system
- the mounting portion is recessed into the coupling opening, and the operation portion has a second end surface that engages with the first end surface of the endoscope system mounting portion, and the second end surface is provided with a half body that is coupled to the mounting portion.
- the operating portion incorporates a half body.
- Another technical solution of the present invention provides an endoscope system workstation, wherein the operation portion is provided with a main display bracket, and the main display bracket is disposed at a middle portion of the operation portion, and includes a main strut and an upper end disposed on the main strut Universal adjustment mechanism composed of a plurality of sub-struts, the universal adjustment In the mechanism, a damper for holding the universal adjusting mechanism at the adjusted position is provided, and a weight for preventing the operating portion from tipping is provided at a lower portion of the operating portion.
- the operating portion is provided with a main display bracket, and the main display bracket includes a main strut and a universal adjusting mechanism formed by a plurality of sub-struts disposed at an upper end of the main strut, wherein the universal adjusting mechanism is provided with a damper that maintains the universal adjustment mechanism in the adjusted position, and the main struts are disposed at an end portion of the operation portion in the front-rear direction, and the sub-struts are along the front-rear direction so as to straddle the upper portion of the operation portion extend.
- the main strut is arranged at the end or the middle of the operating portion, and the auxiliary strut as the cantilever portion extends toward the outside of the operating portion, in order to ensure the stability of the entire endoscope system workstation
- the sub-strut as the cantilever portion can be extended above the width of the operating portion, so that the center of gravity of the entire system can be stabilized, plus the main
- the weight of the strut itself can eliminate the weight portion of the original technical solution, which can increase the stability of the center of gravity of the endoscope system workstation.
- the installation is also more convenient, and the use space of the front console is also increased.
- Fig. 1 is a perspective view showing a state in which an endoscope system mounting portion and an operation portion according to an embodiment of the present invention are combined.
- Fig. 2 is a perspective view of the endoscope system mounting portion, showing the state in which the drawer is mounted.
- Fig. 3 shows a state in which the mounting portion coupling mechanism is attached to the endoscope system mounting portion.
- Fig. 4 (a) is a perspective view of the assembled endoscope system mounting portion and the operation portion when viewed from the rear side, and the cart is not inserted into the endoscope system mounting portion.
- Fig. 4 (b) is a side view showing only the endoscope system mounting portion, and shows a state in which the trolley is inserted into the endoscope system mounting portion.
- Fig. 5 is a schematic view showing the relationship between the bogie and the guide portion of the bogie.
- Figure 6 (a) is a schematic view of the first door body, the second door body portion and its surrounding portions, The state in which the first door body and the second door body are closed is shown.
- Fig. 6 (b) is a schematic view of the first door body, the second door body portion, and its surrounding portion, and shows the state in which the first door body and the second door body are opened.
- Figure 7 (a) is a schematic view of the cable management door and its surrounding parts, showing the state in which the cable management door is closed.
- Figure 7 (b) is a schematic view of the cable box door and its surrounding parts, showing the state in which the cable box door is opened.
- Fig. 8 is a schematic view showing the door body of the cable management box and its surrounding portion, and is a front view showing the state in which the door of the cable management box is opened.
- Fig. 9 is a perspective view of an endoscope system mounting portion according to another embodiment.
- Fig. 10 is a schematic view showing a modification of the bogie storage portion of the present invention.
- Fig. 11 is a schematic view showing another modification of the cart housing portion of the present invention.
- Fig. 12 is a schematic view showing another modification of the cart housing portion of the present invention.
- Fig. 13 is a schematic view showing another modification of the cart housing portion of the present invention.
- Fig. 14 is a perspective view showing a state in which an endoscope system mounting portion and an operation portion are combined in another embodiment of the present invention.
- Fig. 15 is a schematic view showing the structure of the suction duct mounted on the mounting portion of the endoscope system. detailed description:
- front and rear refers to a face that is often faced with a medical staff in the normal use state of the workstation, and a side opposite to the front side is referred to as a rear side.
- the medical endoscope system workstation (hereinafter referred to as a workstation) of the present embodiment is a detachable unitary structure.
- This endoscope system workstation includes an endoscope system mounting unit 1 (hereinafter sometimes referred to as a mounting unit 1) and an operation unit 100.
- Endoscope system mounting unit 1 and operation The working portion 100 is joined together by a joining mechanism, which will be described in detail below with respect to the joining mechanism.
- a main display holder 101 is erected on the operation unit 100.
- the main display stand 101 is used to hang a plurality of main displays 106.
- the main display stand 101 includes a main strut 102 and a plurality of sub-struts 103-105.
- the first sub-strut 103 is coupled to the upper end of the main strut 102 and extends laterally from the upper end of the main strut 102.
- the second sub-strut 104 is connected to the outer end of the first sub-strut 103 via a universal adjustment mechanism with a damper.
- the second sub-struts 104 also extend in the lateral direction.
- the third sub-strut 105 is also connected to the outer end of the second sub-strudle 104 via a universal adjustment mechanism with a damper.
- the third sub-strut 105 has a T-shape extending downward from the outer end of the second sub-strut 104, and then branched to the left and right ends, and a main display 106 is attached to each of the two horizontal outer ends.
- handles 107 extending from the main display 106 are provided, respectively.
- the handle 107 can be used to adjust the main display. It is also possible to additionally provide a gimbal adjustment mechanism with a damper at the bifurcation of the third sub-strut 105.
- the two main displays 106 can be individually adjusted.
- the handle 107 for adjusting the position and angle of the main display is made of a bacteria-proof material, and the handle can be periodically replaced to ensure a hygienic effect.
- the adjustment of the main display is performed using three sub-struts.
- the number of main displays is not limited to the number of the present embodiment, and only one main display or three or more main displays may be used. In other words, the setting mode of the main display can be arbitrarily set according to the needs of the doctor.
- the main display holder 101 is provided at a corner of the operation unit 100 (the main display holder 101 is provided in the middle of the operation unit 100 as viewed from the entire operation unit 100), but is not limited thereto.
- the main display stand 101 can be disposed at any position on the operation unit 100 as needed.
- a weight is provided in the operation unit 100 so that the operation unit 100 is separately provided, that is, the operation unit 100 does not When the endoscope system mounting unit 1 is connected, it can be firmly seated on the ground. On.
- the operation portion 100 is provided with a curvature of a predetermined curvature, and the bending is not necessarily provided.
- the operation unit 100 of an arbitrary shape can be selected depending on the specific conditions at the time of detection.
- the endoscope system mounting unit 1 As shown in Figs. 1 to 4, the design of the outline of the mounting portion 1 is similar to that of the operation unit 100, that is, it has a certain curvature. The purpose of this arrangement is to prevent the mounting portion 1 from tipping over.
- the mounting portion 1 may be provided in a long strip shape without a curvature or a square shape as needed.
- the shape is not particularly limited as long as the concave portion 2 of the storage cart 8 can be provided at the rear portion, and an operation device such as an endoscope that can be used by medical personnel can be provided in the front portion, and the mounting portion 1 can be set to any shape.
- a recess 2 for accommodating the carriage 8 is provided at the rear portion of the mounting portion 1.
- This concave portion 2 functions as a trolley storage portion.
- the shape of the recess 2 is not particularly limited, but it is preferable that the W portion 2 is formed in a shape corresponding to the carriage 8 from the viewpoint of practical use.
- a shape corresponding to, for example, a WM-NP1 trolley that is marketed by the applicant is employed. That is, it has a substantially concave shape.
- the rear portion of the bogie 8 is substantially flush with the rear portion of the mounting portion 1 after the bogie 8 is housed in the recess 2. This will be more conducive to making the entire clinic look cleaner.
- a guiding mechanism 7 for guiding the wheels 81 of the carriage 8 is provided in the lower portion of the recess 2.
- a perspective view of the guiding mechanism 7 is shown in Fig. 5.
- the guiding mechanism 7 includes a front plate and two side plates.
- the front plate and the side plates are integrally formed.
- the front plate and the two side plates may be independently provided as needed.
- the wheels 81 of the trolley 8 pushed into the guiding mechanism 7 can be guided to both sides of the front plate, so that the trolley 8 can be prevented from coming off easily.
- Guiding agency 7 in other words, not Easy to leave the recess 2).
- Guide recesses 72 for guiding the wheels are respectively provided on the two side plates. After the guiding mechanism 7 is placed on the mounting portion 1, the height of the guiding recess 72 is slightly higher than the wheel 81 of the carriage 8. This allows the wheel 81 to enter the guiding mechanism 7 with a slight inclination to avoid catching the wheel 81.
- the upper portion of the guiding EJ portion 72 is configured as a guiding projection 71. With this guiding protrusion 71, the strength of the guiding mechanism 7 is enhanced. Further, the configuration of the guiding mechanism 7 is not limited to the above embodiment, and the protruding function may be directly attached to the inner wall of the concave portion to realize the guiding function.
- Fig. 5 a part of the equipment provided on the trolley 8 is schematically shown. These devices may be at least one of Olympus models CV-260, CVL-260, PSD-30 endoscope drive devices.
- the front side of the mounting portion 1 is provided with a cable management box 5, a door body 4 corresponding to the recess portion 2 described in detail above, and a pedal for operation when the medical staff operates an auxiliary device such as a suction device. 9.
- An opening that communicates with the EJ unit 2 is provided at a position corresponding to the EJ unit 2 at the front portion of the mounting unit 1, and the medical device mounted on the bogie 8 can be operated through the opening.
- a door body 4 capable of closing the opening is provided at the opening, and the door body 4 includes a smaller first door body 41 and a larger second door body 42. As shown in FIGS.
- the first door body 41 is disposed at the upper left portion of the door body 4, and the first door body 41 and the endoscope image processing center frequently used in the trolley are internally A knob such as a sight glass cold light source, and the like, and various common sockets located on the above-mentioned devices, so that the medical staff can conveniently perform the regular operation when only the smaller first door body 41 is opened. And insert common cables and so on.
- the first door body 41 is a door body that is opened by a hinge
- the second door body 42 is a door type of a sliding door type.
- various prior art hinges and slide rails can be employed.
- a transparent window corresponding to various devices on the carriage 8 is provided on the door body 4 of the present invention.
- a lock mechanism may be provided between the first door body 41 and the second door body 42, and the smaller first door body 41 may be locked to the second door body 42.
- a lock mechanism may be provided between the second door body 42 and the mounting portion 1 so that the second door body 42 can be fixed to the mounting portion 1.
- FIG. 6 (b) Another aspect of the present invention provides a door body in which a notch portion allowing a passage of a medical device is formed in a portion where the first door body 41 and the second door body 42 are joined together.
- the first notch portion 41a is formed in the first door body 41
- the second notch portion 42a is formed in the second door body 42.
- the first notch portion 41a and the second notch portion 42a constitute a notch portion through which the medical device line is inserted.
- the notch portion is not limited thereto, and the notch portion may be formed only on the first door body 41 alone, or the notch portion may be formed only on the second door body 42. The same effect of the notch.
- the notch portion may be provided at a portion where the first door body 41 and the second door body 42 are joined together, so that a socket formed by the notch portion is formed between the first door body 41 and the second door body 42.
- the cable management box 5 is installed in the mounting portion 1.
- the cable management box 5 and the recessed portion 2 are connected to connect the cables of the devices on the trolley 8 (including the power supply line, the signal line, the suction tube, and the like for the endoscope mirror) with the cable management box 5 or the display device. Connected.
- the present invention provides various types of cables in the mounting portion, the unnecessary cables are not seen by the medical staff or the patient, and therefore, the entire medical treatment room can be more effectively ensured.
- two lead openings are provided on the rear wall of the cable management box 5, one of which is used to take out the suction tube and the other is used for the suction tube. Lead the instrument cable. Further, a wire receiving recess that is independent of each other is provided at a lower portion of the cable management box 5. Each of the wire receiving recesses corresponds to one lead wire, so that various cables drawn from the lead wires can be received in the corresponding wire receiving recesses, so that frequent wire drawing from the lead wire can be avoided, and the medical treatment can be reduced. The labor intensity of the personnel.
- the most important feature of the cable management box 5 is the cable management box door 50, which is mounted on the cable management box 5 by means of a hinge which can be used with various hinges which are commercially available. Further, on the cable box door 50, a lock member for locking the cable management door body 50 to the cable management box 5, such as a lock head or the like, is further provided.
- a cable retracting damping mechanism 50a is provided on an upper portion of the cable management box door 50 for damping damping of the cable discharged from the cable management box 5 to prevent excessive release of the cable or Preventing the cable from being automatically retracted due to gravity or the like causes trouble for the medical staff.
- the wire retracting damper mechanism 50a is composed of a single piece of rubber sheet (usually made of silica gel) which is processed in the longitudinal direction. A plurality of incomplete slots are formed to form a plurality of rubber sheets 50ab. Thereby, the cable enters the slit and enters between the rubber sheets 50ab, and the rubber sheet 50ab applies damping to the cable.
- the wire retracting damper mechanism 50a of the present embodiment is merely an example, and is not limited thereto, and may be a rubber roller, a damper roller, or a damped clamping mechanism or the like.
- the pedal 9 is a pedal that can be housed in the mounting portion 1.
- the pedal 9 can be housed in the mounting portion 1 without using the pedal 9 as compared with the case where the pedal is directly placed on the ground. In this way, when the pedal 9 is not used, the treatment room is clean and tidy, and it does not hang on to the medical staff or the patient, thereby reducing the probability of occurrence of a dangerous situation in the treatment room.
- the pedal is slid out by the slide rail, but the present invention is not limited thereto, and the guide groove 1 may be provided only on the mounting portion 1 to guide the pedal 9.
- the insertion portion 1 may be provided with a pop-up mechanism, and the pedal 9 may be pushed once, and the pedal 9 may be ejected. After the pedal 9 is returned, the pedal can be locked in the mounting portion 1 by the locking mechanism.
- the pedal and the mounting portion are connected by a cable, but a wireless transceiver may be provided on the pedal 9, and a wireless transceiver may be provided on the mounting portion 1, so that the pedal and the pedal can be realized.
- the bonding mechanism in the present invention employs a coupling mechanism of a concave-convex fit.
- a flat end portion 18 is provided in the mounting portion 1, and two coupling openings 18a, 18b are provided one above the other at the end portion 18.
- slide rails may be provided, respectively, so that when the mount portion 1 is used alone, a drawer can be installed in the joint openings 18a, 18b for the medical staff to better hold the articles.
- the drawer can be removed by the medical staff, and the joint projections 18c, 18d are respectively attached to the joint openings 18a, 18b.
- an end surface (not shown) that engages with the end surface 18 and a coupling recess that engages with the coupling projections 18c and 18d are provided in advance on the operation portion 100.
- the connection between the operation portion 100 and the mounting portion 1 can be realized.
- a cable connection can be additionally provided between the mounting unit 1 and the operation unit 100 by a wire insertion hole that can be covered by the cover cover. This part of the wiring can be appropriately selected as needed by those skilled in the art, and therefore, it will not be described herein.
- the coupling structure may be as shown in FIG. 9 in the mounting portion of another embodiment.
- Upper, a coupling recess is provided on the end face 18'.
- a projection corresponding to the end surface 18' is provided on the operation portion 100.
- the coupling recess on the end surface 18' is formed as a coupling recess having an equal width in the longitudinal direction, whereby a coupling plate can be mounted in the coupling recess, using the coupling plate and the projection on the operation portion 100.
- the coupling recesses are engaged to restrict the vertical displacement between the mounting portion 18' and the operating portion 100, and the mounting portion 18 is restricted by the coupling recess on the end surface 18' and the corresponding projection on the support 100.
- connection between the mounting portion and the operation portion may be fixed, and a locking mechanism or a fixing mechanism may be further provided.
- a snap-type clip that fixes the two is provided. Any means can be used as long as it can limit the relative displacement of the two, and is not limited to a specific form.
- the joint faces may be flat and the bolts may be used to fix the two together.
- a white balance cap for adjusting the effect of the endoscope, a heat dissipation grid for allowing air to flow, and the like may be provided on the mounting portion 1.
- a plurality of suction bottles for collecting the liquid sucked from the human body are provided at the rear of the mounting portion 1.
- a water supply bottle for holding a lavage fluid such as water that is inserted into the human body may be provided on the mounting portion 1.
- the outer edge of the article placement area of the mounting portion is provided with a projection for preventing the medicine or the medical tool from slipping off.
- the sub-display 30 for observation and use by a medical assistant such as a nurse is provided on the mounting portion 1.
- the sub-display 30 is provided in the present embodiment.
- the sub-display mounting end may be provided only on the workstation as needed, so that the medical staff can select whether or not to install or when to install according to actual needs.
- a plurality of adjusting legs for adjustable length are provided, and by adjusting the adjusting legs, the height of the entire mounting portion 1 can be adjusted, or by adjusting a certain portion of the adjusting foot Adjust to maintain the balance of the entire mounting section, preventing it from bottoming
- the support points are not the same height and shake.
- a shortcut button may be provided on the mounting portion.
- the shortcut has a large surface area and is set at a position convenient for the doctor to click. By clicking the shortcut key, the computer can automatically control the screen capture or call the nurse.
- the medical endoscope system workstation shown in the embodiment of the present specification has a configuration in which the endoscope system mounting unit 1 and the operation unit 100 can be separated, but it goes without saying that the above embodiment may be used.
- the endoscope system mounting portion 1 and the operation portion 100 are integrally formed as an integral, non-detachable structure.
- the endoscope system mounting portion may be formed into an elongated structure (the elongated structure refers to a shape having a length in one direction that is larger than a length in the other direction perpendicular to the direction), and
- the cart storage unit is provided in the vicinity of one end of the endoscope system mounting unit, and a main display holder is provided in the vicinity of the other end of the endoscope system mounting unit.
- the main display bracket is similar to the structure of the main display bracket on the operation unit 100, that is, includes a main strut and a universal adjusting mechanism composed of a plurality of sub-struts disposed at an upper end of the main strut, the universal adjusting mechanism A damper for holding the universal adjustment mechanism at the adjusted position is provided, and a weight for preventing the endoscope system mounting portion from tipping over is provided on the endoscope system mounting portion.
- the endoscope system mounting portion 1 can be replaced by an endoscope system mounting portion having a single structure, and the endoscope system workstation can function.
- the entire endoscope system mounting portion (or workstation) can be configured as a single unit, which makes it easier to install the mounting portion at the site of the medical facility.
- the members and structures of the other portions of the mounting portion can be the same members and structures as the corresponding portions of the mounting portion in the first embodiment.
- the bogie storage portion represented by the recess 2 is not limited to the form of the recess.
- it may be a structure of some of the following modifications.
- the concave portion 201 constituting the trolley housing portion may be on the side of the mounting portion.
- Square opening As shown in FIG. 10, an opening and closing door 202 for closing the opening may be provided in the opening portion of the recess 201. In this way, after the carriage 801 is pushed into the recess 201, by closing the opening and closing door 202, it is possible to ensure the appearance of the entire mounting portion (or the workstation).
- the opening and closing door may not be provided.
- the rear portion of the carriage is directly used to block the opening of the recess 202.
- the opening of the concave portion 201 is directed to the side of the mounting portion.
- the present invention is not limited thereto, and the opening of the concave portion may be directed toward the front of the mounting portion.
- the opening and closing door may be provided or the opening and closing door may not be provided.
- the same effects as those of the modification shown in Fig. 10 described above can be obtained.
- the rear side of the trolley is exposed.
- the rear portion of the bicycle may have a rear plate, and the rear plate may be made of the same material as the outer casing of the mounting portion. In this way, after the trolley is pushed into the recess, the entire surface of the mounting portion can be integrated. It helps to improve the appearance of the entire mounting section.
- an opening and closing door 302, 402 whose side is rotatably attached to the mounting portion by a hinge may be provided at an opening which is originally opened in the recess.
- the trolleys 802, 803 are fixed to the opening and closing doors 302, 402.
- the difference between FIG. 11 and FIG. 12 is that the concave portion 301 of the modified example of FIG. 11 is opened only in one direction (lateral side in FIG. 11, but may be front or rear) in the mounting portion, and the modification of FIG.
- the recessed portion 401 is open to the side and the front side of the mounting portion (the direction in which the recessed portion is opened is not limited to the direction of the present modification, and may be the side and the rear).
- the opening and closing door 302 is attached to one side of the recess 301 by means of a hinge, and the bogie 802 is integrally mounted on the opening and closing door 302. Thereby, the bogie 802 can be made to enter the recess 301 while the opening and closing door 302 is closed.
- a compact and easy-to-operate mounting portion can be provided.
- the recessed portion 401 is opened in front of and behind the mounting portion, and the opening and closing door 402 is attached to the side of the opening of the recessed portion 401 by a hinge, and is opened and closed at the closing portion.
- the opening and closing door 402 can simultaneously block the forward and lateral openings of the recess 401.
- the two sides of the upper edge of the concave portion 401 are substantially perpendicular to each other, and at the same time, the shape of the opening and closing door 402 corresponds to the shape of the opening of the concave portion 401. Therefore, the opening and closing door 402 can close the opening of the concave portion 401 by the adhesion of the opening and closing door 402 and the opening of the concave portion 401.
- a trolley 803 is integrally provided with the opening and closing door 402 on the side facing the concave portion 401 of the opening and closing door 402. Therefore, according to the configuration of the present modification, as in the above-described modification shown in Fig. 11, it is also possible to provide a mounting portion which is compact in structure and convenient in operation.
- the trolley housing portion of the mounting portion of the present invention may have the configuration shown in Fig. 13 .
- Fig. 13 a structure in which the bogie 804 is enclosed in the mounting portion is shown.
- Fig. 13 only the front panel 502 and the side panel 503 for forming the trolley housing portion are shown for the illustration.
- the upper and rear panels for forming the trolley storage portion are omitted in the drawing.
- a trolley storage portion (carriage storage space) for accommodating the carriage 804 can be formed.
- This structure is mainly used in the case where it is necessary to close the bogie in the bogie storage portion of the mounting portion.
- the wheel is provided on the trolley 804 in Fig. 13, the wheel may not be provided on the trolley 804.
- the present invention can also be improved as follows:
- the operation unit 100 is provided with a main display stand 101 including a main strut 102 and a tens of thousands of sub-struts 103, 104, 105 disposed at the upper end of the main strut 102.
- the universal adjusting mechanism is provided with a damper for holding the universal adjusting mechanism in the adjusted position, and the main strut 102 is disposed on the upper edge of the operating portion 100
- the rear end portions in the front-rear direction, and the sub-struts 103, 104, and 105 extend in the front-rear direction so as to straddle the upper portion of the operation portion 100.
- the weight of the main struts 102 can be used to increase the stability of the overall center of gravity.
- the main struts 102 are located at the rear end portion, which makes installation and disassembly more convenient, lower requirements on the height of the room, and increases the use space of the front console.
- the main display 106 is changed from two to two, because the two main displays are used, and when viewed too close, the doctor is likely to cause visual fatigue when looking at the screen.
- the curvature at the position of the front end portion 110 of the operation portion is also reduced, so that not only the floor space can be reduced, but also the position of the anesthesiologist can be increased as an anesthesiologist's station.
- the arc position 110 is also designed with a storage space with the door body 111, and the weight portion originally provided here is omitted, which not only reduces the weight of the entire system, but also increases the storage of consumable materials. space.
- the original wiring groove (for guiding the cable from the front to the rear and for accommodating the cable to connect with other devices) It is installed at the bottom of the back of the system, which makes the operation of the wiring more convenient, and it is faster and more convenient to repair or troubleshoot the cable.
- the wiring slot can be directly presented to the user, making it easier and faster to check or troubleshoot.
- the installation method of the backboard is also changed from the original screw installation to the current buckle loading and unloading, and a pull ring assembly is further provided in the central portion of the back panel, and the pull ring assembly includes a concave pull provided on the back panel.
- the ring groove and the pull ring that is hinged at one end in the groove of the pull ring.
- the pull ring is placed in the pull ring slot.
- the back plate needs to be removed: Pull the pull ring up, the buckle on the back plate is automatically unwound; or use the pull ring, the card along the back plate
- the back plate can be easily removed by pulling the back plate in the direction of the buckle. In this way, no special tools are required, and the back panel can be opened to operate the inside by handing out the buckle.
- a drawer 112 is further provided at the front of the operation unit 100, which can be used for storing a diagnosis. Consumables commonly used in therapy.
- a storage space for accommodating the medical device is further provided in the front portion of the mounting portion 1 (the position of the cable management box 5 is removed at a position corresponding to the cable management box 5 in Fig. 1). It can accommodate some equipment such as ESG-100, AFU-100, and its leads.
- the storage space is further provided with an opening at the front portion of the endoscope system mounting portion 1, and a storage space door 113 (material is transparent) that is slidably opened and closed is provided at the opening. Specifically, as shown in FIG.
- a storage space door receiving groove 121 is provided below the opening of the storage space, and both ends of the back surface of the storage space door 113 are passed therethrough.
- a slide rail assembly disposed in a vertical direction, not shown, is slidably disposed in the vertical direction on the opening.
- a suction duct 114 and a suction pipe temporary storage region 115 are provided in the vicinity of the transparent door body 113 (the right side of the door body 113 in Fig. 14), and the suction duct 114 is A dedicated channel to prevent the suction tube from contaminating other cables.
- FIG. 15 is a schematic view showing a cylindrical structure in which the suction line 114 is attached to the endoscope system mounting portion 1 (hereinafter referred to as the mounting portion 1).
- 130 is a front plate of the mounting portion 1
- 131 is a component fixed at a certain position inside the mounting portion 1.
- other members on the front plate 130 for example, AFU-100 bottles, water bottles, etc.
- the other members inside the front plate 130 are omitted, and the attachment of the suction line 114 to the mounting portion 1 will be described.
- FIG. 1 As shown in FIG.
- the suction duct 114 is a passage that penetrates from the front side to the rear side of the mounting portion 1, and the inside of the suction duct 132 is inserted, and the suction pipe 132 can be guided from the front side of the mounting portion 1 to the rear side. Bottle.
- the connection relationship between the suction line 114 and the mounting portion 1 is such that one opening is provided in each of the front plate 130 and the back plate of the mounting portion 1, and the suction pipe 114 is provided in the inside of the mounting portion 1.
- Space As shown in FIG. 15, the space includes two suction pipe fixing frames 129, and one ends of the two fixing frames 129 are fixed to a fixed position member 131 inside the mounting portion 1, in the middle of the fixing frame 129.
- a hole for the suction pipe 114 to pass through is provided, so that the suction pipe is provided through the front plate 130 and the rear plate
- the opening, and the holes in the middle of the two holders 129 are fixed.
- at least a pair of engaging projections 126 are provided at at least one set of radially opposite positions of the suction line 114 at a position slightly behind the front port, while in the space in which the suction line 114 is received. It is provided that, as shown in FIG. 15, the engaging projection 126 has an oblong cross section (that is, a shape formed by joining the semicircles on the two short sides of the rectangle), and the engaging portion 127 is provided in front.
- a long hole in the plate 130 corresponding in shape and size corresponding to the cross-sectional shape of the engaging projection 126.
- the engagement between the engaging projection 126 and the engaging portion 127 is such that the suction duct 114 is inserted into the space in which the suction duct 114 is housed, and the suction duct 114 is rotated to engage the engaging projection 126 and the engaging portion 127. Interlocking is achieved.
- the disassembly process of the suction pipe 114 is specifically described below: that is, the engagement protrusion 126 is rotated to a position corresponding to the full hole and completely inserted into the long hole, and at this time, it is only necessary to slightly rotate the suction pipe 114 with respect to the long hole, so that The longitudinal direction of the engaging projection 126 and the longitudinal direction of the long hole are offset by a certain angle, so that the suction pipe 114 can be defined in the front-rear direction; on the contrary, when the disassembly is required to be disengaged again, the suction pipe 114 can be pulled out. Out.
- the suction line 114 can also be easily disassembled (using a knob structure, a twist, a pull can be easily disassembled, no special tools are required).
- the structure and shape of the engaging projection 126 and the engaging portion 127 of the present invention are not limited thereto, and may be other types and shapes of engaging structures.
- a suction pipe temporary storage area 115 is also provided on the mounting portion 1.
- the suction pipe temporary storage area 115 is a bottomed rubber cap, and the rubber cap is provided with a hole for the front end of the endoscope system mounting portion 1 to be inserted into the tip of the suction tube (not shown). .
- the temporary storage area 115 of the suction tube provides a place for the temporary storage of the suction tube during the endoscope exchange, and the temporary storage portion 115 of the suction tube can be removed from the mounting portion for unloading or replacement.
- the sub-display 30 shown in Fig. 1 is cancelled and its function can be realized by a display on the trolley.
- a drawer 116 is further provided, and the pedal 9 is placed thereon. Inside the drawer 116, this makes the cleaning of the floor more convenient, and after the pedal 9 is removed, the drawer can be closed (the wire can come out from the upper mouth).
- a camera 117 is also disposed on the sub-strut 103, so that the on-site operation of the medical treatment can be easily photographed for use in an academic meeting; and the main strut 102 can be further rotated according to the vertical direction as needed.
- the display unit 118; and the gas unit 119 and the ET holder 120 are respectively provided on the operation unit 100 and the mounting unit 1.
- the gas integration device 119 is used to integrate the gas supply devices so that the nurses can operate the gas supply devices without movement or with little movement.
- the gas integrating device 119 herein is generally a plate structure disposed perpendicularly to the operating portion 100, and the plate structure is provided with a plurality of interface components 124 connected to medical gas devices (oxygen cylinders, etc.), where the interfaces are
- the assembly 124 can be designed to be compatible with the gas supply interface of the gas device depending on the type of gas equipment that is actually required to be used.
- the ET stent 120 is used to hang the handler during the course of the diagnosis and treatment.
- the patient monitor 125 can also be mounted on the lower portion of the main display stand 101 as needed (the patient monitor 125 can rotate around the main strut 102 in a range of 270. The view is shown to the display panel with the display 118 Vertical position).
- a positioning frame 123 for temporarily storing an operation portion of the endoscope is further provided at the right end of the mounting portion.
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Description
内窥镜系统搭载部及内窥镜系统工作站 本申请依赖并要求 2011 年 1 月 28 日提交的中国专利申请 201110035054.8的优先权, 在此通过参考将其全部内容并入本文。
技术领域:
本发明属于医疗设备技术领域, 具体涉及用于整合台车的内窥镜系 统搭载部及工作站。 背景技术:
在医疗领域, 在检查和治疗中, 有时需要采用内窥镜进行人体介入 诊断治疗, 即, 将内窥镜插入人体体腔, 利用设置在内窥镜顶端的光学 组件进行人体体腔内的观察。 以往, 与内窥镜相连的诊疗设备设置在台 车上。 这样做虽然便于医生及护士整体移动设备, 但是, 由于内窥镜是 需要插入到人体内的设备, 所以, 在卫生上一般要求较高。 同时, 对于 患者来说, 往往希望诊疗操作现场是安全、 卫生整洁的。 从医生角度来 说, 同样希望避免交叉污染而确保患者安全。
但是, 如上所述, 目前内窥镜设备基本上都是采用台车方式。 在诊 疗设备中, 往往除了内窥镜设备之外, 还会用到显示器和其它辅助设备。 此时, 虽然可以将它们也设置在台车上, 或设置在另外的台车上。 这样 做, 会对诊疗区域的整体布局造成影响。 不管是哪种情况下, 由于各设 备之间需要采用大量连线, 自不必说在采用多个台车的情况下, 多数需 要在地表走线, 会使地表布线凌乱。 即使是采用单一台车集成布线, 在 台车外表面上也会有大量的接线外露。 这样, 不仅会使患者感觉紧张, 也会给医生或护士的操作带来不便。
此外, 例如, 日本特开 2001-120492号公报公开有一种内窥镜装置,
该装置中, 在台车上端设置悬臂支架状的显示器支架, 该显示器支架能 在一定角度内转动, 这样, 可以让医生根据习惯进行调整。 另外, 在台 车下部增设了椅子, 以便医生在进行长时间检查时可以坐着检查。
可是, 根据上述日本特开 2001-120492号公报, 在台车上设置了显示 器支架, 但是, 该显示器支架在一定程度上也影响到了医生的操作。 另 夕卜, 在台车上设置显示器, 给医护人员观察内窥镜图像造成了不便, 同 时, 将大量的周边诊疗机器设置在一个台车上不易拆取且影响机器散热。
此外, 在日本特开 2010-5256号公报也公开了一种内窥镜用台车, 该 台车的上部设有显示器和内窥镜支架, 并在它们外部增设覆盖用罩。 在 该罩的前部设置若干拉链形成开口窗, 可根据需要打开或关闭该开口窗。 通过设置覆盖罩, 更加切实地保护了搭载在台车内的各种设备, 使这些 设备不受环境污染, 并且可以将各种线缆设置在覆盖罩内。 此外, 该台 车上, 内窥镜支架等部分可以拆卸, 这也使台车的调整变得更加方便。
但是, 该台车在设计上也存在问题, 例如设计拉链致使开口操作不 够流畅, 并且拉链容易损坏, 此外, 设置覆盖罩, 会影响到散热性, 使 整个设备的散热变差。 另外, 诊疗环境中台车与观察装置的整体性不好, 线路整合性欠缺。
另外, 例如, 在日本特开平 6-245895号公报中, 也公开有一种内窥镜 系统结构设备的收纳台车, 该台车为了防止机器被污染, 将台车设计成 盒子构造, 并在台车前部和后部都设置开口, 以方便连线。 在此设计中, 的确利用外壳的隔离功能保护了仪器, 但是其设计也存在着一些不足之 处。 即, 诊疗周边装置都暴露在台车外部, 造成线路混乱等。
从上述各现有技术来看, 设备安装在台车或架子上并暴露在外部环 境中。 各设备间的供电线、 信号线杂乱交错, 即使在台车上设置显示器, 也会因显示器架在台车上而无法大幅度地进行位置调整, 而单独使用立 地显示器支架也会给医生的操作带来不便,并使整个环境显得比较混乱。
发明内容:
本发明就是鉴于上述问题而做出的, 一个目的在于提供一种整体性 好、 线缆不外露的内窥镜系统搭载部。 其它目的在于提供能够整合内窥 镜系统搭载部的工作站。
本发明一技术方案提供一种内窥镜系统搭载部, 在该内窥镜系统搭 载部上设置有用于收纳台车的台车收纳部, 该台车用于搭载至少包含内 窥镜驱动设备在内的诊疗设备。
采用该内窥镜系统搭载部, 可以使台车收纳在内窥镜系统搭载部的 台车收纳部中。 这样, 可以使台车上原本比较凌乱的各种线缆隐藏起来, 装置整体性好。 此外, 由于可以只在诊疗室内设置很少的设备, 没有使 诊疗室看起来比较凌乱的台车, 因此, 能够为医疗人员提供更便利和舒 适的操作环境, 综合提高医院品质和形象。 同时, 不会让患者产生恐惧 感。
本发明另一技术方案提供一种内窥镜系统搭载部, 所述台车收纳部 为设置在所述内窥镜系统搭载部上的朝后开口的凹部, 在所述内窥镜系 统搭载部前部的与所述台车收纳部相应的位置, 设置有与该台车收纳部 连通的开口, 能通过该开口对搭载在所述台车上的诊疗设备进行操作, 在该开口上设置有能关闭该开口的门体。
通过设置门体, 可以使医疗人员打开门体, 而直接操作台车上的设 备。 这样, 可以提高内窥镜系统搭载部的可操作性。
本发明另一技术方案提供一种内窥镜系统搭载部, 所述门体由第 1门 体和第 2门体构成, 所述第 1门体设在与所述台车上的诊疗设备的常用按 ¾和/或插口相对应的位置。 并且, 优选所述第 1门体比所述第 2门体小。
这样, 可以在对台车上的设备进行常用操作时, 仅打开第 1门体, 而 减少台车的外露面积, 减少过多露出台车, 而给患者造成不舒适感。 当
需要进行比较复杂的操作时, 再同时打开第 1、 第 2门体。 当第 1门体小于 第 2门体时, 只打开较小的第 1门体可以更好地减少台车露出面积, 更有 利于使整个装置显得整洁, 减少患者的不舒适感。
在所述内窥镜系统搭载部上还设置有收纳空间, 该收纳空间在所述 内窥镜系统搭载部的前部设有开口, 在该开口处设有能滑动地开关的收 纳空间门体。 这样, 可以增加设备(例如 ESG-100, AFU-100 )的摆放的 地方, 设有能滑动开关的收纳空间门体使用时, 拉开即可, 便于对收纳 空间内的仪器进行操作。
在所述内窥镜系统搭载部的前部, 还设置有吸引管临时存放区域, 该吸引管临时存放区域是一个有底的橡胶帽, 在该橡胶帽上设有朝向所 述内窥镜系统搭载部的前方开口的供吸引管的管头卡入的孔。 吸引管临 时存放区域在内镜交换的过程中, 提供了吸引管临时存放的地方。
所述内窥镜系统搭载部还包括供吸引管贯穿的吸引管路, 在所述内 窥镜搭载部的内部设置有供该吸引管路从内窥镜系统搭载部的前侧穿通 到后侧的空间, 且在吸引管路的比前部端口稍靠后的位置, 在至少一组 径向上相对的位置设置有至少一对卡合突起, 同时在收纳该吸引管路的 所述空间中, 设置有能够与该卡合突起卡合而限制吸引管路向外拔出的 卡合部。 该卡合突起和卡合部之间的卡合是通过向收纳吸引管路的空间 内插入吸引管路后, 旋转吸引管路来使卡合突起和卡合部之间实现卡合。 这样设置, 也可以使得吸引管路易于拆卸(采用旋鈕结构, 一扭, 一拉 即可便利拆卸, 不需专门工具) 。
本发明另一技术方案提供一种内窥镜系统搭载部, 在所述内窥镜系 统搭载部上还设置有理线盒, 该理线盒的后部与所述台车收纳部连通, 理线盒在所述内窥镜系统搭载部的前部设有开口, 在理线盒的该开口处 设有理线盒门体, 该理线盒门体上设置有线收放阻尼机构。
本发明另一技术方案提供一种内窥镜系统搭载部, 所述线收放阻尼
机构设置在所述理线盒门体的上部, 由多个片状橡胶体构成, 多个片状 橡胶体在所述理线盒门体上沿横向排列, 利用各片状橡胶体对从理线盒 门体收放的线缆施加阻尼。
本发明另一技术方案提供一种在所述凹部内设置有用于引导台车的 台车引导机构, 所述台车引导机构设置在 W部底部, 具有与台车的轮子 相对应的形状。
本发明另一技术方案提供一种内窥镜系统搭载部, 还包括下述装置 中的至少一个机构: 设置在所述内窥镜系统搭载部上部的副显示器, 设 置在所述内窥镜系统搭载部下部的踏板, 设置在所述内窥镜系统搭载部 侧部的白平衡帽, 设置在所述内窥镜系统搭载部后部的吸引瓶, 设置在 所述内窥镜系统搭载部底部的调节脚。
本发明另一技术方案提供一种内窥镜系统搭载部, 所述内窥镜系统 搭载部上还设置有平整的第 1端面, 在该第 1端面处设置有至少一个结合 开口, 在该结合开口处设有抽屉或罩板。
本发明另一技术方案提供一种内窥镜系统搭载部, 所述内窥镜系统 搭载部为长形结构, 所述台车收纳部设在该内窥镜系统搭载部的一个端 部附近, 并在内窥镜系统搭载部的另一个端部附近设置有用于支承主显 示器的主显示器支架。
这样, 可以提供一种长形并附带主显示器的内窥镜系统搭载部, 通 过在内窥镜系统搭载部的一端设置所述台车收纳部, 在另一端设置主显 示器支架, 这样, 可以提供一种一体结构的具备工作站性质的内窥镜系 统搭载部。
所述主显示器支架包括主支杆和设置在主支杆上端的由多个副支杆 构成的万向调节机构, 该万向调节机构中, 设置有用于将万向调节机构 保持在所调节位置的阻尼器, 该主支杆设于内窥镜系统搭载部的沿前后 方向的端部, 且该副支杆以横跨内窥镜系统搭载部的上方的方式沿该前
后方向延伸。 与下述技术方案相比: 即将主支杆设于内窥镜系统搭载部 的宽度方向端部, 而作为悬臂部分的副支杆朝向内窥镜搭载部外侧延伸, 为了保证整个内窥镜系统的稳定性, 还需要单独的设置配重结构的技术 方案; 本技术方案中这样的设计, 可以使作为悬臂部分的副支杆在内窥 镜系统搭载部的宽度方向上方延伸, 可以使整个系统的重心较为稳定, 再加上主支杆本身的重量, 就可以取消原技术方案中的配重部分, 可以 增加整体重心的稳定。 同时安装上也更加便捷、 也增加了前面操作台的 使用空间。
本发明另一技术方案提供一种内窥镜系统搭载部, 所述主显示器支 架包括主支杆和设置在主支杆上端的由多个副支杆构成的万向调节机 构, 该万向调节机构中, 设置有用于将万向调节机构保持在所调节位置 的阻尼器, 并且, 该内窥镜系统搭载部上, 设置有用于防止该内窥镜系 统搭载部倾翻的配重。 根据上述结构, 提供一种具体结构的主显示器支 架结构。 采用该主显示器支架, 可以使主显示器部分具备良好的万向调 节性, 能更有利于医护人员边观察边操作。
本发明另一技术方案提供一种内窥镜系统工作站, 包括操作部和所 述内窥镜系统搭载部, 所述内窥镜系统搭载部和所述操作部被利用将它 们彼此结合起来的结合机构, 结合在一起。 此时, 不限制连接方式, 可 以用任意方式进行连接。 或者, 提供一种内窥镜系统工作站, 包括操作 部和内窥镜系统搭载部, 在所述结合开口处设置有搭载部结合半体, 该 搭载部结合半体突出于所述内窥镜系统搭载部或向所述结合开口内凹 陷, 在操作部具有与所述内窥镜系统搭载部的第 1端面配合的第 2端面, 在该第 2端面上设置有与搭载部结合半体配合的操作部结合半体。
本发明另一技术方案提供一种内窥镜系统工作站, 所述操作部上设 置有主显示器支架, 该主显示器支架设置在操作部的中部, 包括主支杆 和设置在主支杆上端的由多个副支杆构成的万向调节机构, 该万向调节
机构中, 设置有用于将万向调节机构保持在所调节位置的阻尼器, 在所 述操作部下部, 设置有用于防止该操作部倾翻的配重。
所述操作部上设置有主显示器支架, 该主显示器支架包括主支杆和 设置在主支杆上端的由多个副支杆构成的万向调节机构, 该万向调节机 构中, 设置有用于将万向调节机构保持在所调节位置的阻尼器, 并且, 该主支杆设于操作部上沿前后方向的端部, 且该副支杆以横跨操作部的 上方的方式沿该前后方向延伸。 与下述技术方案相比: 即将主支杆设于 操作部的前后方向端部或中部, 而作为悬臂部分的副支杆朝向操作部外 侧延伸, 为了保证整个内窥镜系统工作站的稳定性, 还需要单独的设置 配重结构的技术方案; 本技术方案中这样的设计, 可以使作为悬臂部分 的副支杆在操作部宽度方向上方延伸, 可以使整个系统的重心较为稳定, 再加上主支杆本身的重量, 就可以取消原技术方案中的配重部分, 可以 增加内窥镜系统工作站的重心的稳定。 同时安装上也更加便捷、 也增加 了前面操作台的使用空间。 附图说明
图 1是本发明一个实施方式的内窥镜系统搭载部和操作部组合起来 后的状态的立体图。
图 2是内窥镜系统搭载部的立体图, 图中是安装抽屉时的状态。
图 3是在内窥镜系统搭载部上安装有搭载部结合机构的状态。
图 4 ( a )是从后侧观察组合好的内窥镜系统搭载部和操作部时看到 的立体图, 图中台车未插入到内窥镜系统搭载部内的状态。
图 4 ( b )是只有内窥镜系统搭载部时的侧视图, 图中标示台车插入 到内窥镜系统搭载部内的状态。
图 5是表示台车和台车引导部关系的示意图。
图 6 ( a )是第 1门体、 第 2门体部分及其周围部分的示意图, 图中表
示的是第 1门体和第 2门体关闭的状态。
图 6 ( b )是第 1门体、 第 2门体部分及其周围部分的示意图, 图中表 示的是第 1门体和第 2门体打开的状态。
图 7 ( a )是理线盒门体及其周围部分的示意图, 图中表示的是理线 盒门体关闭的状态。
图 7 ( b )是理线盒门体及其周围部分的示意图, 图中表示的是理线 盒门体打开的状态。
图 8是理线盒门体及其周围部分的示意图, 图中表示的是理线盒门体 打开的状态下的主视图。
图 9是另一实施方式的内窥镜系统搭载部的立体图。
图 10是用于表示本发明的台车收纳部的变型例的示意图。
图 11是用于表示本发明的台车收纳部的另一变型例的示意图。
图 12是用于表示本发明的台车收纳部的另一变型例的示意图。
图 13是用于表示本发明的台车收纳部的另一变型例的示意图。
图 14是本发明另一个实施方式的内窥镜系统搭载部和操作部组合起 来后的状态的立体图;
图 15是吸引管路在内窥镜系统搭载部上安装的结构示意图。 具体实施方式:
参照图 1至图 8说明本发明的实施方式。 另外, 需要说明的是, 本文 中所谓的前后, 是指在工作站的常规使用状态下, 将经常面对医护人员 的面称之为前侧, 与该前侧相反的一侧称之为后侧,
首先参照图 1和图 2说明本实施方式的概要结构。
如图 1所示,本实施方式的医用内窥镜系统工作站(下文筒称工作站) 是一个可以拆分的整体结构。 该内窥镜系统工作站包括内窥镜系统搭载 部 1 (以下有时也筒称搭载部 1 )和操作部 100。 内窥镜系统搭载部 1和操
作部 100通过结合机构结合在一起, 关于结合机构在下文详细介绍。
在操作部 100上竖立设置有主显示器支架 101。 该主显示器支架 101被 用于悬挂多台主显示器 106。 主显示器支架 101包括主支杆 102和多个副支 杆 103 ~ 105。其中第 1副支杆 103连接在主支杆 102的上端,从该主支杆 102 的上端横向延伸。 第 2副支杆 104经由带阻尼器的万向调节机构与第 1副支 杆 103外端相连。 该第 2副支杆 104也沿横向延伸。 第 3副支杆 105也经由带 阻尼器的万向调节机构与第 2副支杆 104的外端相连。该第 3副支杆 105呈 T 字形, 其从第 2副支杆 104的外端向下延伸, 然后向左右两端分叉, 在两 个水平方向外端, 各自安装有一个主显示器 106。 在主显示器 106的各自 下侧, 分别设置有从该主显示器 106延伸出来的把手 107。 能利用该把手 107来调整主显示器。 也可以在第 3副支杆 105的分叉处另外设置一个带阻 尼器的万向调节机构。 从而, 可以单独调节两个主显示器 106。 在本实施 方式中, 用于调节主显示器位置和角度的把手 107采用防菌材质, 也可以 定期将把手进行更换达到保障卫生的效果。
另外, 在本例子中, 利用三个副支杆来进行主显示器的调节。 但并 不限于此, 也可以只使用两个副支杆, 或者使用四个以上的副支杆。 或 者设置可以伸缩的主支杆、 副支杆, 以更便捷地调节主显示器的角度和 朝向。 再者, 对于主显示器的数量, 不限于本实施方式的数量, 也可以 只用一个主显示器, 或者使用三个以上的主显示器。 换言之, 该主显示 器的设定方式可以根据医生的需要进行任意地设定。
此外, 在本实施方式中, 该主显示器支架 101设置在操作部 100的角 落(从整个操作部 100来看,该主显示器支架 101设在操作部 100的中部), 但并不限于此, 该主显示器支架 101可以根据需要设置在操作部 100上的 任意位置。 为了平衡主操作部 100, 使其不会倾翻, 在本实施方式中, 在 操作部 100中设置有配重, 以使该操作部 100单独设置时, 也就是说, 该 操作部 100不与内窥镜系统搭载部 1连接时, 也可以很稳固地坐落在地面
上。
此外, 如图 1所示, 在本实施方式中, 该操作部 100上设置有预定弧 度的弯曲, 该弯曲也并不是一定要设置。 可以根据检测时的具体情况, 选择任意形状的操作部 100。
接下来, 说明内窥镜系统搭载部 1。 如图 1〜图 4所示, 该搭载部 1轮 廓线的设计与操作部 100相仿, 即, 也是具有一定的弧度。 这样设置的目 的在于, 防止搭载部 1倾翻。但是, 在其他实施方式中, 也可以根据需要, 将搭载部 1设置为长条且不带弧度的形状, 或者只是方形的形状。 对于该 形状并不特别限定, 只要是能在后部设置收纳台车 8的凹部 2, 并且能够 在前部设置能供医护人员使用的内窥镜等操作设备, 可以将搭载部 1设置 为任何形状。
首先, 从搭载部 1的后侧开始说明。
如图 4所示, 在搭载部 1的后部, 设有用于容纳台车 8的凹部 2。 该凹 部 2发挥台车收纳部的功能。 该凹部 2的形状并不特别限定, 但从实际使 用的角度来看, 优选该 W部 2形成为与台车 8相应的形状。 在本实施方式 中, 采用与本申请人在市场上销售的例如 WM-NP1台车相应的形状。 即, 大致呈立方体内凹的形状。 此外, 从医疗场所的环境的整洁角度来看, 优选将台车 8收纳到凹部 2内以后, 台车 8的后部与搭载部 1的后部大致齐 平。 这样, 更有利于使整个诊疗室看起来更加整洁。
在凹部 2的下部, 设置有用于引导台车 8的轮子 81的引导机构 7。 图 5 中示出了该引导机构 7的立体图, 引导机构 7包括前板和两个侧板, 在本 实施方式中, 前板和侧板间采用一体成型的结构。 但并不限于此, 也可 以根据需要, 各自独立地设置前板和两个侧板。 在图中没有示出, 在前 突起, 利用该引导突起, 可以将推入引导机构 7中的台车 8的轮子 81向前 板的两侧引导, 这样, 可以起到使台车 8不易脱离引导机构 7 (换言之不
易离开凹部 2 ) 的作用。
在两个侧板上各自设置用于引导轮子的引导凹部 72。 在将该引导机 构 7设置在搭载部 1上后, 该引导凹部 72的高度略高于台车 8的轮子 81。 这 样允许轮子 81有些许倾斜地进入到引导机构 7中, 以免卡住轮子 81。 对应 于引导 EJ部 72的形成, 引导 EJ部 72的上方构成为引导突起 71。 利用该引 导突起 71 , 增强了引导机构 7的强度。 另外, 关于该引导机构 7的结构不 限于上述实施方式, 也可以直接在凹部的内壁上粘贴突起条来实现引导 功能。
另外, 在图 5中, 示意性地画出了设置在台车 8上的一部分设备。 这 些设备可以是奥林巴斯公司的型号为 CV-260、 CVL- 260, PSD-30的内窥 镜驱动设备中的至少一个。
接下来从搭载部 1的前侧进行说明。
如图 1 ~图 3所示, 搭载部 1的前侧设置有理线盒 5和与上文中详细介 绍过的凹部 2相对应的门体 4以及供医护人员操作吸引器等辅助设备时操 作的踏板 9。
在搭载部 1前部的与 EJ部 2相对应的位置, 设置有与该 EJ部 2连通的开 口, 能通过该开口对搭载在台车 8上的诊疗设备进行操作。 在该开口处设 置有能关闭该开口的门体 4 , 该门体 4包括较小的第 1门体 41和较大的第 2 门体 42。 如图 6 ( a ) 、 6 ( b )所示, 其中第 1门体 41设置在门体 4的左上 部, 该第 1门体 41与台车上经常使用的内窥镜图像处理中心、 内窥镜冷光 源等的旋鈕等、 以及各种位于上述各设备上的常用插口相对应, 以供医 护人员能在只打开较小的第 1门体 41的时候, 就能方便地进行经常性操作 及插入常用线缆等。 另外, 该第 1门体 41是利用铰链旋转式开启的门体, 而第 2门体 42是滑动门式的门体。 对于该第 1门体 41的铰链和第 2门体 42的 滑轨, 可以采用各种现有技术中的铰链和滑轨。 此外, 如图所示, 在本 发明的门体 4上, 设置有与台车 8上的各种设备相对应的透明窗体。
另夕卜, 也可以在第 1门体 41和第 2门体 42之间, 设置有锁止机构, 将 较小的第 1门体 41锁在第 2门体 42上。 关于第 2门体 42与搭载部 1之间, 也 可以相应地设置锁止机构, 以能将第 2门体 42固定在搭载部 1上。
本发明另一技术方案提供一种门体, 在所述第 1门体 41和第 2门体 42 相拼接的部分上形成有允许医疗设备管线穿过的缺口部。 如图 6 ( b )所 示, 在本实施方式中, 在第 1门体 41上形成有第 1缺口部 41a, 在第 2门体 42上形成有第 2缺口部 42a。 由此, 利用该第 1缺口部 41a和第 2缺口部 42a, 构成一个供医疗设备管线贯穿的缺口部。 但该缺口部并不限于此, 也可 以是只在第 1门体 41上单独形成缺口部, 或者只在第 2门体 42上单独形成 缺口部, 此时, 也能达到与上述拼接而成的缺口部相同的效果。 采用该 结构, 可以在不打开第 1、 第 2门体 41、 42的情况下, 直接向台车上的设 备上插入例如内窥镜管线等管线、 特别是内窥镜供电插头、 光源线缆等, 从而, 可以进一步降低给患者造成的不适感, 使得整个操作现场更为整 洁。
所述缺口部也可以设置在所述第 1门体 41和第 2门体 42相拼接的部分 处, 从而在第 1门体 41和第 2门体 42之间形成由缺口部形成的插口。 这样, 在已向台车 8上插入了内窥镜插头等时,能够不影响对第 1门体 41和 /或第 2 门体 42进行的开关门操作。 换言之, 可以在内窥镜插头等已被插在台车 8 上的情况下, 打开第 1门体 41来进行常用按鈕的操作, 和 /或打开第 2门体 42进行不常用按鈕的操作。
接下来, 说明理线盒 5。 该理线盒 5设置在搭载部 1内。 该理线盒 5和 凹部 2相连通, 以将台车 8上各设备的线缆(包括供电线、 信号线和吸引 管等用于内视镜的线缆)与理线盒 5或显示设备相连。作为一种设置方式, 可以选择在搭载部 1的内部设置一条专门用于布线的通道。 也可以根据需 要, 在搭载部 1上直接预留各种接口, 仅需将台车上的线缆(特别是供电 线和信号线, 也包括连结于内窥镜驱动器上的内窥镜吸引器管线等)接
在相应的标准化接口上, 就可以实现各种设备之间的供电和信号传递。 另外, 还可以在整个搭载部 1内不设置任何装置, 而仅保持空腔结构, 设 置线缆架支承线缆, 这样, 更有利于线缆直接导线。 由于本发明将各种 线缆设置在搭载部内, 因此, 不会使不需要的线缆被医疗人员或患者看 到, 因此, 可以更有效地确保整个诊疗室内的整洁。
如图 7 ( a ) 、 图 7 ( b ) 、 图 8所示, 在理线盒 5的后壁上设置有两个 引线口, 其中一个引线口用于引出吸引管, 另一个引线口用于引出仪器 线缆。 并且, 在理线盒 5的下部设置有彼此独立的收线凹部。 每个收线凹 部对应于一个引线口, 这样, 可以将从各引线口引出的各种线缆收纳在 对应的收线凹部中, 这样, 可以避免频繁地从引线口中向外抽线, 减少 医护人员的劳动强度。
理线盒 5的最大特点在于理线盒门体 50上, 该理线盒门体 50利用铰链 安装在理线盒 5上, 该铰链可以采用市场上销售的各种铰链。 此外, 在理 线盒门体 50上, 还设置有用于将理线盒门体 50锁止在理线盒 5上的锁止 件, 例如锁头等。 在该理线盒门体 50的上部设置有线收放阻尼机构 50a, 该线收放阻尼机构 50a用于对从理线盒 5中放出的线缆施加阻尼, 以防止 过多地放出线缆或者防止线缆因重力等自动收回而给医护人员的操作造 成麻烦。
如图 7 ( a ) 、 图 7 ( b )所示, 在本实施方式中, 该线收放阻尼机构 50a是由单片橡胶片 (一般采用硅胶)构成的, 该橡胶片被沿纵向加工有 多个不完整的切槽, 从而形成多片橡胶片 50ab。 由此, 使线缆进入该切 槽, 进入橡胶片 50ab之间, 由橡胶片 50ab对线缆施加阻尼。 本实施方式 的线收放阻尼机构 50a只是个例子, 并不限于此, 可以替代橡胶片, 利用 带阻尼的滚轮, 或者带阻尼的夹持对偶机构等。
回到图 1 , 对设置在搭载部 1下部的踏板 9进行说明。
如图 1所示, 该踏板 9采用能收纳在搭载部 1内的形式的踏板。 与以往
的直接将踏板放置在地面上的情况相比, 采用本发明的结构, 可以在不 使用踏板 9时, 将踏板 9收纳在搭载部 1内。 这样, 在不使用踏板 9时, 诊 疗室内整洁, 并且, 不会挂到医护人员或患者, 减少了诊疗室内危险情 况发生的机率。 另外, 在本实施方式中, 踏板利用滑轨滑出, 但并不限 于此, 也可以仅在搭载部 1上设置有引导槽, 以对踏板 9进行引导。 还可 以是,在搭载部 1上设置弹出式机构,按压一次踏板 9,踏板 9就可以弹出, 并在将踏板 9送回后, 能够利用卡定机构, 将踏板卡定在搭载部 1中。
此外, 在本实施方式中, 踏板与搭载部之间通过线缆连接, 但也可 以在踏板 9上设置无线收发器, 同时, 在搭载部 1上也设置无线收发器, 这样, 可以实现踏板与搭载部 1之间的无线信号传输。
接下来, 说明用于对搭载部 1和操作部 100之间进行连接和卡定的结 合机构。
本发明中的结合机构采用的是凹凸配合方式的结合机构。 如图 2、 图 3所示, 在搭载部 1设置有平面状的端部 18 , 在该端部 18上, 一上一下地 设置有两个结合开口 18a、 18b。 该结合开口 18a、 18b中, 可以各设置有 滑轨, 以在单独利用搭载部 1时, 可以在该结合开口 18a、 18b中安装抽屉, 以供医护人员能够更好地盛放物品。 在不利用抽屉时, 可以由医护人员 拆下抽屉, 在该结合开口 18a、 18b中各自安装上结合突起 18c、 18d。 同 时, 由于在操作部 100上预先设置有与端面 18配合的端面 (未图示)和与 结合突起 18c、 18d相配合的结合凹部。 此时, 只要将结合突起 18c、 18d 与操作部 100上的结合凹部配合上, 就可以实现操作部 100和搭载部 1之间 的连接。 至于操作部 100和搭载部 1之间的线缆连接, 可通过在搭载部 1和 操作部 100之间另行设置有能利用盖板罩盖住的插线孔来进行线缆连接。 关于接线这部分对于本领域技术人员而言是可以根据需要进行适当选择 的, 因此, 在此不再赘述。
另外, 关于结合结构, 也可以如图 9所示, 在其他实施方式的搭载部
上, 在端面 18' 上设置有结合凹部。 在操作部 100上设置有与该端面 18' 相应的突起。 如图 9所示, 该端面 18' 上的结合凹部形成为在纵向上 等宽的结合凹部, 由此, 可以在该结合凹部内安装结合板, 利用结合板 与操作部 100上的突起上的结合凹部相配合, 以限制住搭载部 18' 和操作 部 100之间的上下方向的错动, 利用端面 18' 上的结合凹部和支承体 100 上的与之相应的突起, 限制住搭载部 18' 和操作部 100之间的前后方向的 错动。 由此, 采用该结构, 可以更稳固地对搭载部 18' 和操作部 100之间 进行连接固定。
另外, 对于搭载部与操作部之间的连接固定, 也可以进一步设置有 卡定机构或者固定机构, 例如设置有将二者相互间固定起来的卡扣式的 卡子。 只要是能对二者的相对位移进行限制的手段即可, 并不限定于具 体形式。 或者, 也可以使结合面都是平面, 并直接利用螺栓将二者固定 在一起等。
另外, 可根据诊疗需要, 在搭载部 1上还可以设置用于调节内窥镜显 像效果的白平衡帽、 用于使空气流动的散热栅格等。 另外, 在搭载部 1的 后部设置有多个吸引瓶, 该吸引瓶用于回收从人体内抽吸出来的液体。 此外还可以在搭载部 1上设置有送水瓶, 该送水瓶用于盛放打入人体的水 等灌洗液。 另外, 搭载部的物品摆放区的外边缘设有凸起, 用于防止药 品或诊疗工具滑落。
此外, 在搭载部 1上, 还设置有供护士等医护辅助人员观察使用的副 显示器 30。 关于该副显示器 30, 在本实施方式中设置了该副显示器 30, 但也可以根据需要只是在工作站上设置有副显示器安装端, 让医护人员 根据实际需要选择是否安装或何时安装等。
此外, 在搭载部 1底部, 还设置有可用于可调节长度的多个调节脚, 通过对该调节脚进行调节, 可对搭载部 1整体的高度进行调节, 或者可通 过对某一部分调节脚进行调节来维持整个搭载部的平衡, 防止其因底部
支撑点高度不一而发生晃动。
另外, 也可以在搭载部上设置有快捷按键。 该快捷键的表面积较大 并被设置在便于医生点击的位置, 通过点击该快捷键可以控制电脑自动 截屏或呼叫护士等功能。
另外, 在本说明书中的实施例所示的医用内窥镜系统工作站为内窥 镜系统搭载部 1和操作部 100可以拆分的结构, 但不言而喻, 也可以为将 上述实施方式中的内窥镜系统搭载部 1和操作部 100形成为一体的不可拆 分的整体结构。
例如, 可以是如下结构, 将内窥镜系统搭载部形成为长形结构 (该 长形结构是指, 在一个方向的长度比与该方向垂直的另一个方向上的长 度大的形状) , 将所述台车收纳部设在该内窥镜系统搭载部的一个端部 附近, 并在内窥镜系统搭载部的另一个端部附近设置有主显示器支架。 该主显示器支架类似于上述操作部 100上的主显示器支架的结构, 即, 包 括主支杆和设置在主支杆上端的由多个副支杆构成的万向调节机构, 该 万向调节机构中, 设置有用于将万向调节机构保持在所调节位置的阻尼 器, 并且, 在该内窥镜系统搭载部上, 设置有用于防止该内窥镜系统搭 载部倾翻的配重。
这样, 可以利用一个整体结构的内窥镜系统搭载部替换上述内窥镜 系统搭载部 1 , 发挥内窥镜系统工作站的功能。 采用该结构, 可以使整个 内窥镜系统搭载部 (或称之为工作站) 整体结构筒单, 更利于将该搭载 部设置在医疗机构的现场。
另外, 在采用该结构时, 搭载部其他部分的部件和结构可以采用与 上述实施方式 1中的搭载部上的相应部分相同的部件和结构。
此外, 关于以上述凹部 2为代表的台车收纳部, 并不限于上述凹部的 形式。 例如, 可以是如下一些变型例的结构。
例如, 可以如图 10所示, 使构成台车收纳部的凹部 201在搭载部的侧
方开口。 并且可以像图 10所示的那样, 在凹部 201的开口部分设置有用于 关闭该开口的开闭门 202。 这样, 在向凹部 201内推入台车 801后, 通过关 闭该开闭门 202, 可以确保整个搭载部 (或工作站) 的外观整洁。
当然, 也可以不设置该开闭门。 此时, 在向凹部 202内推入台车后, 直接使用台车的后部来遮挡该凹部 202的开口。
此外, 在上述图 10所示的变型例中, 使凹部 201的开口部朝向搭载部 的侧方, 但并不限于此, 可以使凹部的开口部朝向搭载部的前方。 此时, 既可以设置开闭门, 也可以不设置开闭门。 采用本变型例结构, 可以获 得与上述图 10所示变型例结构相同的效果。 另外, 在上述实施方式和变 型例中, 在向凹部内设置台车后, 台车的后侧是外露。 但也可以是让台 车后部具有后板, 该后板可以是由构成搭载部外壳相同的材质构成。 这 样, 在向凹部内推入台车后, 可以使搭载部整体表面一体化。 有利于提 高整个搭载部的外观。
此外, 也可以像图 11、 图 12所示的变型例那样, 在凹部上原本敞开 的开口处, 设有一个侧边通过铰接件可转动地安装于搭载部上的开闭门 302、 402, 同时将台车 802、 803固定在该开闭门 302、 402上。 图 11和图 12的区别在于, 图 11的变型例的凹部 301只是在搭载部的一个方向 (图 11 中为侧方, 但也可以是前方或后方)上开口, 而图 12的变型例的凹部 401 在搭载部的侧方和前方开口 (凹部开口方向不限于本变型例的方向, 可 以是侧方和后方) 。
根据图 11的变型例的结构, 开闭门 302借助铰接件安装在凹部 301的 一个侧边上, 并且, 在该开闭门 302上一体地安装有台车 802。 由此, 可 以在关闭该开闭门 302的同时, 使台车 802进入到凹部 301内。 可以提供一 种结构紧凑、 操作方便的搭载部。
根据图 12的变形例的结构, 凹部 401在搭载部的前方和侧方开口, 开 闭门 402利用铰接件安装在该凹部 401的开口的侧边上, 并且在关闭开闭
门 402时, 开闭门 402能同时堵住凹部 401的朝前、 朝侧方的开口。 另夕卜, 在图 12中的变型例中, 凹部 401的上沿的两个边大致彼此垂直, 同时, 使 开闭门 402的形状与该凹部 401的开口的形状相应。 从而, 可以通过开闭 门 402和凹部 401的开口的贴合, 使开闭门 402将凹部 401的开口封堵住。 这样, 有利于提高搭载部的整体外观。
此外, 在图 12的变型例中, 在开闭门 402的面向凹部 401侧, 与该开 闭门 402—体地设置有台车 803。 因而, 根据本变型例的结构, 与上述图 11所示的变型例一样地, 也可以提供一种结构紧凑、 操作方便的搭载部。
另外, 本发明的搭载部的台车收纳部也可以是图 13所示的结构。 在 图 13中, 示出了一种将台车 804封闭在搭载部内的结构。 图 13中, 为了筒 化图示, 只示出了用于形成台车收纳部的前面板 502和侧面板 503。 图中 省略了用于形成台车收纳部的上面板和后面板。 在将各面板安装在搭载 部上后, 能够形成用于容纳台车 804的台车收纳部(台车收纳空间) 。 该 结构主要用于需要将台车封闭在搭载部的台车收纳部中的情况。 此外, 虽然在图 13中的台车 804上设置有轮子, 但是, 在台车 804上也可以不设 置轮子。
上述图 11~图 13的结构对于不常更换台车的情况下尤为有效。
上述各个变型例只是对台车收纳部和台车部分的结构进行了详细说 明, 这些变型例中的搭载部的其他部分的结构和效果与上述实施方式的 相同。
此外, 在上述实施方式的基础上, 本发明也可以进行如下所述的改 进:
如图 14所示, 操作部 100上设置有主显示器支架 101 , 该主显示器支 架 101包括主支杆 102和设置在主支杆 102上端的由多个副支杆 103、 104、 105构成的万向调节机构, 该万向调节机构中, 设置有用于将万向调节机 构保持在所调节位置的阻尼器, 并且, 该主支杆 102设于操作部 100上沿
前后方向的后端部, 且该副支杆 103、 104、 105以横跨操作部 100的上方 的方式沿该前后方向延伸。 这样可以利用主支杆 102的重量增加整体重心 的稳定性, 同时, 主支杆 102位于后端部还使得安装、 拆卸更加便捷, 对 房间高度要求较低, 增加了前面操作台的使用空间。
此外, 由图 14还可以看出, 主显示器 106由两个变成了一个, 这是因 为使用两台主显示器, 且靠得过近的情况下, 医生看屏幕容易造成视觉 的劳累。 此外, 操作部前端部 110位置处的弧度也变小了, 这样不仅可以 减少占地面积, 此外, 此处作为麻醉师的站位处, 还能提高麻醉师的站 位空间。 另外, 弧形位置 110处还设计有带有门体 111的储藏空间, 同时 省略了原来设于此处的配重部分, 这样不仅减小了整个系统的重量, 同 时还可以增加消耗材料的存储空间。
对于整个系统后部的改进而言 (图略) , 可以将原来设在内部的布 线槽 (用于将线缆从前部引向后部, 并用于收纳线缆, 使与其它设备相 连接用空间)设置于系统背面底部, 这样使得对布线的操作更为方便, 检修或排查线缆故障更快、 更方便。 具体而言, 当原来需要对布线进行 操作时, 需要拆下背板, 绕过系统内部的其它器件, 来对布线槽中的布 线进行操作, 比较不方便, 而当将布线槽设于系统背面底部后, 只要拆 开背板, 布线槽就可以直接呈现于使用者的面前, 不管是检修还是排查 故障都更加方便和快捷。 此外, 背板的安装方式也由原来的由螺釘安装 改为现在的卡扣装卸, 而且在背板的中央部分还设有拉环组件, 拉环组 件包括设于背板上的内凹的拉环槽以及一端铰接于拉环槽内的拉环。 在 系统正常使用时, 拉环容置于拉环槽内, 当需要拆卸背板的时候: 将拉 环拉起, 背板上的卡扣自动解开; 或者借助拉环, 沿背板的卡扣打开方 向拉动背板, 即可方便地对背板进行拆卸。 这样, 不需要专门的工具, 用手拨出卡扣就可以打开背板对内部进行操作。
再回到图 14, 在操作部 100的前部还设置了抽屉 112, 可用于存放诊
疗中常用的消耗材。 在搭载部 1前部(图 1中与理线盒 5相对应的位置, 取 消了该理线盒 5的设置)还设有可容纳医疗装置的收纳空间。 可以容纳部 分设备, 例如 ESG-100, AFU-100, 及其引线。 并且, 收纳空间在内窥镜 系统搭载部 1的前部还设有开口, 在该开口处设有能滑动地开关的收纳空 间门体 113 (材质为透明) 。 具体而言, 如图 14所示, 在搭载部 1的前部, 位于收纳空间的开口下方还设有收纳空间门体容置槽 121 , 此处的收纳空 间门体 113背面的两端, 通过未图示的沿竖直方向设置的滑动导轨组件, 沿竖直方向能滑动的设于开口上。 当需要打开收纳空间时, 使收纳空间 门体 113利用滑动导轨组件向下滑动, 并随着门体 113的滑动逐渐进入收 纳空间门体容置槽 121。 当需要关闭开口时, 再将收纳空间门体 113沿滑 动导轨向上移动, 并收纳空间关闭。
此外, 在搭载部 1的前部, 透明门体 113的附近(在图 14中为门体 113 的右侧)还设有吸引管路 114, 以及吸引管临时存放区域 115 , 吸引管路 114为专用的通道, 以避免吸引管对其他线缆造成污染。
如图 15为吸引管路 114在内窥镜系统搭载部 1 (以下筒称搭载部 1 )上 安装的筒化结构示意图。 在图中 130为搭载部 1的前板, 131为搭载部 1内 部某个位置固定的组件,这里为方便起见,省略前板 130上的其他构件(例 如 AFU-100瓶, 送水瓶等构件) , 省略前板 130内部的其他构件, 来对吸 引管路 114在搭载部 1上的安装进行说明。 如图 15所示, 该吸引管路 114为 从搭载部 1的前侧贯穿到后侧的通路, 内部供吸引管 132插入, 能将吸引 管 132从搭载部 1前侧引导到后侧的吸引瓶处。 该吸引管路 114与搭载部 1 之间的连接关系是, 在搭载部 1的前板 130和背板上各设置有一个开口, 并且在搭载部 1的内部设置有供该吸引管路 114穿通的空间。 如图 15所示, 该空间上包括两个吸引管路固定架 129 , 两个固定架 129的一端均被固定 于搭载部 1内部的某个位置固定的构件 131上, 在固定架 129的中部设有供 吸引管路 114通过的孔, 这样一来, 吸引管路通过前板 130和后板上设有
的开口, 以及两个固定架 129中部的孔被固定。 此外, 在吸引管路 114的 比前部端口稍靠后的位置, 在至少一组径向上相对的位置设置有至少一 对卡合突起 126, 同时在收纳该吸引管路 114的所述空间中, 设置有能够 言, 如图 15所示, 该卡合突起 126截面呈长圆状(即分别在矩形的两个短 边上与半圆接合而形成的形状) , 而卡合部 127为设于前板 130上的, 形 状、 大小大致和卡合突起 126的截面形状相对应的长孔。 该卡合突起 126 和卡合部 127之间的卡合是通过向收纳吸引管路 114的空间内插入吸引管 路 114后, 旋转吸引管路 114来使卡合突起 126和卡合部 127之间实现卡合。 下面具体说明吸引管路 114的拆卸过程: 即使得卡合突起 126旋转到与长 孔完全重合对应的位置, 并插入长孔内, 此时只需要相对于长孔稍微旋 转吸引管路 114, 使得卡合突起 126的长边方向和长孔的长边方向错开一 定角度, 即可对沿前后方向对吸引管路 114进行限定; 反之, 当需要拆卸 再次对应重合, 即可将吸引管路 114拔出。 这样设置, 也可以使得吸引管 路 114易于拆卸(采用旋鈕结构, 一扭, 一拉即可便利拆卸, 不需专门工 具) 。 当然, 本发明的卡合突起 126和卡合部 127的结构、 形状不限于此, 也可以是其他类型和形状的卡合结构。
在搭载部 1上, 还设置有吸引管临时存放区域 115。 该吸引管临时存 放区域 115是一个有底的橡胶帽, 在该橡胶帽上设有朝向所述内窥镜系统 搭载部 1的前方开口的供吸引管的管头卡入的孔(图略) 。 吸引管临时存 放区域 115为在内镜交换的过程中, 提供了吸引管临时存放的地方, 且吸 引管临时存放处 115可以从搭载部上拆下单独进行卸清洗或更换。
如图 14, 更进一步的改进还包括: 图 1所示的副显示器 30被取消, 其 功能可以由台车上的显示器来实现。 此外, 在原来与在内窥镜系统搭载 部 1下部的踏板 9处相对应的位置处, 还设有抽屉 116, 将踏板 9放置于该
抽屉 116内, 这使得地面的清扫更为方便, 而将踏板 9取出后, 可以将抽 屉关上(线可以从上面口部出来) 。 另外, 还在副支杆 103上设置了摄像 机 117, 从而便于将诊疗的现场操作情况拍摄下来, 供学术会上使用; 在 主支杆 102上还可以根据需要再设置一个可绕竖直方向旋转的显示器 118; 此外, 在操作部 100和搭载部 1上, 还分别设有气体整合装置 119和 ET支架 120。 气体整合装置 119用于对气体供应装置进行整合, 从而使护 士不用移动或者很少的移动就可以操作各气体供应装置。 此处的气体整 合装置 119整体是一个与操作部 100垂直设置的板结构, 在该板结构上设 有多个与医疗用气体设备(氧气瓶等)相连接的接口组件 124, 此处的接 口组件 124可以根据实际需要使用的气体设备的种类的不同, 被设计为与 气体设备的供气接口相配套的结构。 ET支架 120用于在诊疗的过程中挂取 处置器。 另外, 还可以根据需要在主显示器支架 101的下部安装患者监护 仪 125 (该患者监护仪 125可以绕主支杆 102进行范围为 270。 的旋转, 图 中所示是转到与显示器 118显示器面板垂直的位置) 。
另外, 在搭载部右侧顶端处还设有用于临时存放内窥镜的操作部的 定位架 123。
总之, 在本发明技术思想所涵盖的范围内所做的各种设计变更均应 理解为未脱离本发明所要求保护的范围。
Claims
1. 一种内窥镜系统搭载部, 其特征在于,
在该内窥镜系统搭载部 (1 )上设置有用于收纳台车 (8) 的台车收 纳部(2) , 该台车 (8)用于搭载至少包含内窥镜驱动设备(4)在内的 诊疗设备。
2. 根据权利要求 1所述的内窥镜系统搭载部, 其特征在于, 所述台车收纳部 (2) 为设置在所述内窥镜系统搭载部 (1 )上的朝 后开口的凹部 (2) ,
在所述内窥镜系统搭载部 (1 )前部的与所述台车收纳部 (2)相应 的位置, 设置有与该台车收纳部(2)连通的开口, 能通过该开口对搭载 在所述台车 (8)上的诊疗设备进行操作, 在该开口上设置有能关闭该开 口的门体 (4) 。
3. 根据权利要求 2所述的内窥镜系统搭载部, 其特征在于, 所述门体(4) 由第 1门体(41 )和第 2门体(42)构成, 所述第 1门 体(41 )设在与所述台车(8)上的诊疗设备的常用按¾和/或插口相对应 的位置。
4. 根据权利要求 3所述的内窥镜系统搭载部, 其特征在于, 所述第 1 门体 (41 ) 比所述第 2门体 (42) 小。
5. 根据权利要求 1~4的任意一项所述的内窥镜系统搭载部, 其特征 在于,
在所述内窥镜系统搭载部(1)上还设置有收纳空间, 该收纳空间在 所述内窥镜系统搭载部(1) 的前部设有开口, 在该开口处设有能滑动地 开关的收纳空间门体(113) 。
6. 根据权利要求 1~4的任意一项所述的内窥镜系统搭载部, 其特征 在于, 在所述内窥镜系统搭载部(1) 的前部, 还设置有吸引管临时存放 区域(115) , 该吸引管临时存放区域(115)是一个有底的橡胶帽, 在 该橡胶帽上设有朝向所述内窥镜系统搭载部(1)的前方开口的供吸引管 的管头卡入的孔。
7. 根据权利要求 1~4的任意一项所述的内窥镜系统搭载部, 其特征 在于,所述内窥镜系统搭载部( 1 )还包括供吸引管贯穿的吸引管路( 114), 在所述内窥镜搭载部 (1 ) 的内部设置有供该吸引管路(114)从内窥镜 系统搭载部 (1 ) 的前侧穿通到后侧的空间, 且在吸引管路(114) 的比 前部端口稍靠后的位置, 在至少一组径向上相对的位置设置有至少一对 卡合突起(126) , 同时在收纳该吸引管路(114) 的所述空间中, 设置 有能够与该卡合突起卡合而限制吸引管路 ( 114) 向外拔出的卡合部 (127) 。
8. 根据权利要求 1~4的任意一项所述的内窥镜系统搭载部, 其特征 在于,
在所述内窥镜系统搭载部 (1 )上还设置有理线盒(5) , 该理线盒 (5) 的后部与台车收纳部(2)连通, 理线盒(5)在所述内窥镜系统搭 载部 (1 ) 的前部设有开口, 在理线盒(5) 的该开口处设有理线盒门体 (50) , 该理线盒门体(50)上设置有线收放阻尼机构 (50a) 。
9. 根据权利要求 8所述的内窥镜系统搭载部, 其特征在于, 所述线收放阻尼机构 (50a)设置在所述理线盒门体(50) 的上部, 由多个片状橡胶体(50ab)构成, 多个片状橡胶体(50ab)在所述理线 盒门体(50)上并排设置, 利用各片状橡胶体(50ab)对从理线盒门体 (50)收放的管线施加阻尼。
10. 根据权利要求 1~9的任意一项所述的内窥镜系统搭载部, 其特征 在于,
在所述台车收纳部 (2) 内设置有用于引导台车 (8) 的台车引导机 构 (7) , 所述台车引导机构 (7)设置在台车收纳部(2)底部, 具有与 台车 (8 ) 的轮子相对应的形状。
11. 根据权利要求 1~9的任意一项所述的内窥镜系统搭载部, 其特征 在于,
还包括下述装置中的至少一个:
设置在所述内窥镜系统搭载部 (1 )上部的副显示器(30 ) , 设置在所述内窥镜系统搭载部 (1 ) 下部的踏板(9 ) ,
设置在所述内窥镜系统搭载部 (1 )侧部的白平衡帽,
设置在所述内窥镜系统搭载部 (1 )后部的吸引瓶,
设置在所述内窥镜系统搭载部 (1 )底部的调节脚。
12. 根据权利要求 1~11中任一项所述的内窥镜系统搭载部, 其特征 在于,
所述内窥镜系统搭载部 (1 )上还设置有平整的第 1端面 (18 ) , 在 该第 1端面 (18 )处设置有至少一个结合开口 (18a、 18b ) , 在该结合开 口 (18a、 18b )处设有抽屉或罩板。
13. 根据权利要求 1~11的任意一项所述的内窥镜系统搭载部, 其特 征在于, 所述内窥镜系统搭载部为长形结构, 所述台车收纳部设在该内 窥镜系统搭载部的一个端部附近, 并在内窥镜系统搭载部的另一个端部 附近设置有用于支承主显示器的主显示器支架。
14. 根据权利要求 13所述的内窥镜系统搭载部, 其特征在于, 所述 主显示器支架包括主支杆和设置在主支杆上端的由多个副支杆构成的万 向调节机构, 该万向调节机构中, 设置有用于将万向调节机构保持在所 调节位置的阻尼器,
该主支杆设于内窥镜系统搭载部的沿前后方向的端部, 且该副支杆 以横跨内窥镜系统搭载部 (1 ) 的上方的方式沿该前后方向延伸。
15. 根据权利要求 13所述的内窥镜系统搭载部, 其特征在于, 所述 主显示器支架包括主支杆和设置在主支杆上端的由多个副支杆构成的万 向调节机构, 该万向调节机构中, 设置有用于将万向调节机构保持在所 调节位置的阻尼器,
并且, 该内窥镜系统搭载部上, 设置有用于防止该内窥镜系统搭载 部 ( 1 )倾翻的配重。
16. 根据权利要求 1所述的内窥镜系统搭载部, 其特征在于, 所述台车收纳部 (2)是下述结构中的一种:
设于内窥镜系统搭载部 (1)上的朝前开口的凹部;
设于内窥镜系统搭载部 (1)上的朝侧方开口的 EJ部;
设于内窥镜系统搭载部 (1) 内的用于收纳台车的收纳空间。
17. 根据权利要求 1所述的内窥镜系统搭载部, 其特征在于, 所述台车收纳部 (2)是由形成于内窥镜系统搭载部 (1 )上的凹部 和用于关闭该凹部的开闭门围成的空间, 所述台车固定在该开闭门上, 并且, 该台车能随着开闭门的转动而收纳于台车收纳部 (2) 内。
18. 一种内窥镜系统工作站, 其特征在于,
包括操作部 ( 100)和权利要求 1 ~ 11中任一项所述的内窥镜系统搭 载部 ( 1 ) ,
所述搭载部 (1 )和所述操作部 (100)被利用能将它们彼此结合起 来的结合机构接合在一起。
19. 一种内窥镜系统工作站, 其特征在于, 包括操作部(100)和权 利要求 12所述的内窥镜系统搭载部 ( 1 ) ,
在所述结合开口(18a、 18b)处设置有搭载部结合半体(18c、 18d) , 该搭载部结合半体(18c、 18d) 突出于所述内窥镜系统搭载部 (1 )或向 所述结合开口 (18a、 18b) 内凹陷,
在操作部( 100)具有与所述内窥镜系统搭载部( 1 )的第 1端面( 18) 配合的第 2端面, 在该第 2端面上设置有与搭载部结合半体( 18c、 18d) 配合的操作部结合半体。
20. 根据权利要求 19所述的内窥镜系统工作站, 其特征在于, 所述操作部 (100) 上设置有主显示器支架(101) , 该主显示器支 架( 101 )设置在操作部 ( 100 ) 的中部, 包括主支杆( 102 )和设置在主 支杆(102)上端的由多个副支杆(103~105)构成的万向调节机构, 该 万向调节机构中, 设置有用于将万向调节机构保持在所调节位置的阻尼 器,
在所述操作部 (100) 下部, 设置有用于防止该操作部 (100)倾翻 的配重。
21. 根据权利要求 19所述的内窥镜系统工作站, 其特征在于, 所述 操作部 ( 100)上设置有主显示器支架( 101 ) , 该主显示器支架( 101 ) 包括主支杆(102)和设置在主支杆(102)上端的由多个副支杆(103~ 105)构成的万向调节机构, 该万向调节机构中, 设置有用于将万向调节 机构保持在所调节位置的阻尼器,
并且, 该主支杆(102)设于操作部 (100)上沿前后方向的端部, 且该副支杆( 103 ~ 105 )以横跨操作部( 100 )的上方的方式沿该前后方 向延伸。
Priority Applications (2)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
EP20120739693 EP2668890A4 (en) | 2011-01-28 | 2012-01-30 | TRANSPORT CONSOLE FOR ENDOSCOPE SYSTEM AND WORKSTATION FOR ENDOSCOPE SYSTEM |
CN201280006706.8A CN103501679A (zh) | 2012-01-30 | 2012-01-30 | 内窥镜系统搭载部及内窥镜系统工作站 |
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CN201110035054.8A CN102613952B (zh) | 2011-01-28 | 2011-01-28 | 内窥镜系统搭载部及内窥镜系统工作站 |
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Cited By (3)
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CN105943173A (zh) * | 2016-05-13 | 2016-09-21 | 镇江市新天医疗器械有限公司 | 一种手术显微镜支撑架 |
CN112168362A (zh) * | 2020-10-09 | 2021-01-05 | 郭凤英 | 一种麻醉科支气管镜操作车 |
CN113827346A (zh) * | 2020-06-23 | 2021-12-24 | 岱川医疗(深圳)有限责任公司 | 一种用于野战医院的便携式内镜诊断系统 |
Families Citing this family (5)
Publication number | Priority date | Publication date | Assignee | Title |
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CN103501679A (zh) * | 2012-01-30 | 2014-01-08 | 奥林巴斯(北京)销售服务有限公司 | 内窥镜系统搭载部及内窥镜系统工作站 |
CN104856630B (zh) * | 2015-04-01 | 2016-08-24 | 刘慧芳 | 肠镜检查分析装置 |
CN105287001A (zh) * | 2015-11-30 | 2016-02-03 | 广州乔铁医疗科技有限公司 | 一种机器人臂直肠镜系统 |
CN109113388B (zh) * | 2018-08-20 | 2023-09-22 | 老肯医疗科技股份有限公司 | 用于放置内窥镜的镜库 |
CN115655655B (zh) * | 2022-10-26 | 2023-09-08 | 广州宇翊鑫医疗科技有限公司 | 一种内窥镜检修平台 |
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CN105943173A (zh) * | 2016-05-13 | 2016-09-21 | 镇江市新天医疗器械有限公司 | 一种手术显微镜支撑架 |
CN113827346A (zh) * | 2020-06-23 | 2021-12-24 | 岱川医疗(深圳)有限责任公司 | 一种用于野战医院的便携式内镜诊断系统 |
CN112168362A (zh) * | 2020-10-09 | 2021-01-05 | 郭凤英 | 一种麻醉科支气管镜操作车 |
Also Published As
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EP2668890A1 (en) | 2013-12-04 |
EP2668890A4 (en) | 2014-06-25 |
CN102613952B (zh) | 2015-03-25 |
CN102613952A (zh) | 2012-08-01 |
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