CN215108142U - Transfer window that scope center used - Google Patents

Abstract

The utility model discloses a pass-through box that scope center used, including window form frame, locks, integrated wall, place in the window form frame just in the integrated wall the window form frame is provided with and is used for sealing the switch door of window form frame, the switch door with be provided with locks between the window form frame, locks includes lock core, mechanical part, electricity drive portion, mechanical part is used for manual movement the lock core goes on opening/closing of switch door, electricity drive portion is used for locking/release the lock core. In the utility model, the opening/closing of the side door of the delivery window and the air exchanging operation of the negative pressure pipeline are controlled in an interlocking way, so that the air between a decontamination room and a use room is prevented from circulating; the information exchange of intelligent pass-through box both sides improves staff's work efficiency and uses and experiences.

Description

Transfer window that scope center used

Technical Field

The utility model belongs to the technical field of the pass-through box, concretely relates to pass-through box that scope center used.

Background

The transfer window used in the center of the endoscope takes out various sterilized endoscopes such as gastroscopes and enteroscopes from the washing and disinfecting room through the clean transfer window and then transfers the endoscopes to the operation and diagnosis rooms; due to the reasons of clean sewage diversion, manpower resource saving, high efficiency, high speed and the like, the endoscope is particularly and commonly applied to the currently newly built endoscope center.

Present pass-through box is because functional requirements such as aseptic, dustproof, and the principle that the one-way door that opens is mostly adopted, washes the door between disappearing promptly and takes the door between can not open simultaneously, but when the switch of side door is opened/closed by the personnel control of both sides completely, easily causes the mistake to touch the door that opens, leads to the air of both sides to produce the circulation, is unfavorable for aseptic, dustproof. The nurse who takes between and the staff who washes the room that disappears because the isolation of side door, can not be fine communicate, easily make in the room that washes the mistake of working personnel of washing and disappearing get the machinery, reduce work efficiency.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing a transfer window used in the center of an endoscope, which can control the opening/closing of the side door of the transfer window and the air exchanging operation of a negative pressure pipeline in a linkage way, and avoid the air circulation between a decontamination room and a use room; the information exchange of intelligent pass-through box both sides improves staff's work efficiency and uses and experiences.

The utility model provides a technical scheme that its technical problem adopted is, provides a transmission window that scope center used, including window form frame, locks, integrated wall, place in the window form frame just in the integrated wall the window form frame is provided with and is used for sealing the switch door of window form frame, the switch door with be provided with locks between the window form frame, locks includes lock core, mechanical part, electricity drive portion, mechanical part is used for manual movement the lock core goes on opening/closing of switch door, electricity drive portion is used for locking/release the lock core.

Furthermore, the window body frame also comprises an embedded frame and a sealing frame, the embedded frame is a cuboid frame and is arranged in the integrated wall, and the sealing frame is arranged in the embedded frame; the window body frame is internally provided with an accommodating disc for accommodating instruments.

Furthermore, the opening and closing door comprises a first side door and a second side door, the first side door is arranged at one end, located in the washing and disinfecting room, of the embedded frame, and the second side door is arranged at one end, located in the taking room, of the embedded frame, so that instruments in the washing and disinfecting room can be transmitted to the taking room through the window body frame; a first sealing element is arranged on the inner side of the first side door, a second sealing element is arranged on the inner side of the second side door, the first sealing element and the second sealing element can be inserted into the sealing frame, and sealing strips are arranged between the sealing frame and the first sealing element and between the sealing frame and the second sealing element, so that the window body frame can be sealed by the opening and closing door; the first sealing element, the second sealing element and all be provided with between the seal frame door locking device, the seal frame all be provided with the confession on the first sealing element the second sealing element the lockhole that the lock core passed, the aperture of lockhole is less than the butt joint face of sealing strip.

Further, the lock core includes tooth's socket, lock chamber, the lower bottom surface of lock core is provided with the tooth's socket, the front end of lock core has been seted up the lock chamber, place in the lock core in the switch door, the tail end of lock core sets up the limiting plate, the below of lock core sets up first hypoplastron, second hypoplastron, the top of lock core is provided with first upper plate, the both sides of lock core are provided with first curb plate.

Furthermore, the mechanical part comprises a handle, a gear, a rotating shaft and a shell, the gear is fixedly connected with the rotating shaft, the rotating shaft is rotatably connected with the door switch, the rotating shaft extends to the outer side of the door switch and is fixedly connected with the handle, so that the handle can rotate the gear through the rotating shaft, and the shell is sleeved on a structure of the mechanical part, which is exposed out of the door switch; the gear is meshed with the tooth grooves, the lock cylinder can be moved in a reciprocating mode along the direction of the tooth grooves by rotating the handle, and the lock cylinder extends out of the switch door to be locked with the sealing frame, so that the switch door is closed; the lock cylinder and the sealing frame are unlocked and released, and the lock cylinder retracts into the switch door, so that the switch door is opened.

The electric driving part comprises a hook arm, a driving device and a lock hook, the driving device is used for driving the hook arm to swing up and down, the front end of the hook arm is provided with the lock hook, the upper part of the lock cavity is matched with the lock hook to be provided with a stopping part, and the lock hook is upwards swung by the driving device so that the lock hook is locked with the lock cavity; and the locking hook is swung downwards by the driving device, so that the locking hook and the locking cavity are released.

Furthermore, the first lower plate and the second lower plate are respectively arranged on two sides of the gear, notches are formed in the positions, corresponding to the tooth grooves, of the first lower plate and the second lower plate, and the first lower plate and the second lower plate are not in direct contact with the tooth grooves; the first upper plate is always in contact with the lock cylinder.

Further, still include negative pressure device, negative pressure device includes intake pipe, negative pressure pipe, the intake pipe the negative pressure pipe passes in proper order the embedded frame sealed frame with the inner space intercommunication of window body frame, be provided with the motorised valve that admits air in the intake pipe, be provided with the negative pressure motorised valve on the negative pressure pipe.

Furthermore, a plurality of window body frames are arranged on the integrated wall, a decorative plate is arranged on the outer surface of the integrated wall, and a sealing strip is arranged between the decorative plate and the switch door.

The system further comprises an integrated terminal, wherein the integrated terminal comprises an identification module, a voice module, a data processing module and a human-computer interaction module.

The utility model has the advantages that:

1. the utility model provides a pass-through box that scope center used combines through mechanical structure and automatically controlled structure, forms semi-automatic formula locks, reduces the mistake risk of opening the door, after the unblock of trigger formula automatically controlled structure, still need manual operation can just open the door; an intelligent interaction terminal is arranged between the washing and disinfecting room and the taking room, so that the intelligent interaction terminal can quickly communicate with the washing and disinfecting room and take instruments; the pass-through box carries out sealing treatment, and the air between washing and disinfecting and taking room does not produce the circulation, has promoted the isolation effect.

Drawings

The accompanying drawings, which are incorporated in and constitute a part of the specification, illustrate embodiments of the invention and together with the description, serve to explain the principles of the invention. In the drawings, like reference numerals are used to indicate like elements. The drawings in the following description are directed to some, but not all embodiments of the invention. For a person skilled in the art, other figures can be derived from these figures without inventive effort.

Fig. 1 is a front view of a transmission window used in an endoscope center according to an embodiment of the present invention;

fig. 2 is a pipeline layout diagram of a delivery window used in the center of an endoscope according to an embodiment of the present invention;

fig. 3 is a cross-sectional view of the structure within the frame a of fig. 2 according to an embodiment of the present invention;

fig. 4 is a cross-sectional view of the structure within the frame B of fig. 2 according to an embodiment of the present invention;

fig. 5 is a bottom view of the mechanical part of the transmission window used in the endoscope center according to the embodiment of the present invention;

fig. 6 is a partial cross-sectional view of a window frame of a transmission window used in an endoscope center according to an embodiment of the present invention;

fig. 7 is a three-dimensional structure diagram of a window frame of a transmission window used in an endoscope center according to an embodiment of the present invention;

fig. 8 is a door opening structure view of a window frame of a delivery window used in an endoscope center according to an embodiment of the present invention.

In the figure: 1. a window frame; 2. integrating the terminal; 3. a tooth socket; 4. a lock cylinder; 5. a mechanical part; 6. an electric drive section; 7. an air inlet pipe; 8. a negative pressure tube; 9. an integrated wall; 11. a first side door; 12. a second side door; 13. an embedded frame; 14. a sealing frame; 15. an accommodating tray; 16. a sealing strip; 31. a latch hook; 32. a lock cavity; 41. a limiting plate; 42. a first lower plate; 43. a second lower plate; 44. a first upper plate; 45. a first side plate; 46. a trigger; 51. a handle; 52. a gear; 53. a rotating shaft; 54. a housing; 61. a hook arm; 62. a drive device; 71. a first intake valve; 72. a second intake valve; 81. a first gas outlet valve; 82. a second gas outlet valve; 91. a plaque; 111. a first seal member; 112. a first window; 121. a second seal member; 122. a second window.

Detailed Description

In order to more clearly illustrate the embodiments of the present invention and the technical solutions in the prior art, the following description will refer to the accompanying drawings to describe specific embodiments of the present invention. It is to be understood that the drawings in the following description are merely exemplary of the invention and that other drawings and embodiments can be made by those skilled in the art without undue burden. The designation of the design orientation merely indicates the relative positional relationship between the respective members, not the absolute positional relationship.

The embodiment of the utility model provides a pass-through box that scope center used please refer to fig. 1-8, mainly include window form frame 1, door lock device, integrated wall 9, place in the window form frame 1 in the integrated wall 9 just window form frame 1 is provided with and is used for sealing the switch door of window form frame 1, the switch door with be provided with door lock device between the window form frame, door lock device includes lock core 4, mechanical part 5, electricity drive portion 6, mechanical part 5 is used for manual movement the lock core 4 goes on opening/closing of switch door, electricity drive portion 6 is used for locking/release the lock core 4.

The embodiment of the utility model provides an in, window body frame 1 can be a plurality of integrations together, forms integrated wall 9, promptly, is provided with a plurality of window body frames 1 in the integrated wall 9. The window body frame 1 is of a cuboid frame type structure, the position of the window body frame 1 in the integrated wall 9 is an embedded frame 13, the embedded frame 13 can be enclosed by plates, and a sealing frame 14 is arranged in the embedded frame 13; the two ends of the window frame 1, which are positioned on the wall surface of the integrated wall 9, are provided with the switch doors, so that when the switch doors are opened, instruments can be transferred between the washing and disinfecting room and the taking room through the window frame 1.

The opening and closing door may include a first side door 11 and a second side door 12. Wherein the first side door 11 may be located in a decontamination room and the second side door 12 may be located in a taking room. The inner frame 13 may have a sealing frame 14, a first sealing member 111 disposed inside the first side door 11, and a second sealing member 121 disposed inside the second side door 12. Specifically, the sealing frame 14 is disposed inside four sidewalls of the embedded frame 13, and a port of the sealing frame 14 is used for abutting against the first sealing element 111 and the second sealing element 121; the first sealing element 111 and the second sealing element 121 may be provided with protruding structures, and the protruding structures may have a certain height, so that the protruding structures can be inserted into the inner frame wall of the sealing frame 14, and the side walls of the protruding structures are attached to the inner frame wall of the sealing frame 14, thereby forming a sealing structure.

It can be understood that when the first side door 11 and the second side door 12 are closed, the first sealing member 111 and the second sealing member 121 can be inserted into the sealing frame 14 from two ports of the sealing frame 14 to seal the window frame 1.

In order to enhance the sealing performance, a sealing strip 16 may be disposed on the inner frame wall of the two ports of the sealing frame 14, and the sealing strip 16 is disposed around the port of the sealing frame 14, so that when the first sealing element 111 and the second sealing element 121 are inserted into the sealing frame 14, the side wall of the protruding structure can abut against the sealing strip 16, thereby enhancing the sealing performance. It can be understood that when the transmission window is used, only one side door is opened at a time, and air on two sides does not directly circulate.

The door lock device can be arranged between the side wall of the protruding structure and the butt joint surface of the inner frame wall of the sealing frame 14, and comprises a lock cylinder 4, a mechanical part 5 and an electric driving part 6, wherein the mechanical part 5 can be arranged in a sealing piece, the electric driving part 6 can be arranged behind the sealing frame 14 and fixedly connected with the integration wall 9, and the lock cylinder 4 can reciprocate between the mechanical part 5 and the electric driving part 6 to close/open the door lock device. The door lock device can be arranged on the right side of the first sealing element 111 and the left side of the second sealing element 121, and is provided with a lock hole for the lock cylinder 4 to pass through, and the lock hole is formed in each of the first sealing element 111, the second sealing element 121, the sealing frame 14 and the embedded frame 13.

It can be understood that, a lock hole for the lock cylinder 4 to reciprocate can be formed in a corresponding position on the sealing strip 16, and the aperture of the lock hole should be smaller than the abutting surface between the sealing strip 16 and the side wall of the protruding structure, that is, the abutting area between the sealing strip 16 and the side wall of the protruding structure is larger than the aperture of the lock hole, so that the sealing performance of the window structure is not affected when the lock cylinder 4 reciprocates in the lock hole, that is, after the lock hole is formed in the sealing strip 16, the sealing strip 16 still has good sealing performance.

In the embodiment of the utility model, lock core 4 includes tooth's socket 3, lock chamber 32. The key cylinder 4 is built in the switch door, specifically, the key cylinder 4 is built in the first sealing member 111 and the second sealing member 121, and can pass through the lock hole to perform locking/releasing operation with the sealing frame 14.

The lower bottom surface of the key cylinder 4 is provided with a tooth groove 3 for matching and engaging with a gear 52 of the mechanical part 5, so that the mechanical part 5 can perform reciprocating movement by manually driving the key cylinder 4 to open/close the opening/closing door. It will be appreciated that the length of the gullet 3 may determine the amplitude of the reciprocal movement of the lock cylinder 4.

The front end, i.e. the protruding end, of the lock cylinder 4 is provided with a lock cavity 32, and the lock cavity 32 may include a stopper portion, an inclined bottom portion, and a stopper wall. Wherein, the blocking portion is used for cooperating with the locking hook 31 to form a locking effect; the inclined bottom is used for inserting the locking hook 31, so that the inserting effect is optimized; a limiting wall may be used to limit the insertion depth of the shackle 31.

Further, in order to meet the basic installation requirements of the lock cylinder 4, a limiting plate 41, a first lower plate 42, a second lower plate 43, a first upper plate 44 and a first side plate 45 may be arranged in the switch door. The limiting plate 41 can be located at the tail end of the lock cylinder 4 to limit the retraction depth of the lock cylinder 4, so as to avoid the problem that the latch hook fails due to excessive retraction. The first lower plate 42 and the second lower plate 43 are both located below the lock cylinder 4 and are used for receiving the lock cylinder 4, the first lower plate 42 and the second lower plate 43 can be respectively arranged at two sides of the gear 52, and the first lower plate 42 and the second lower plate 43 can be provided with notches at positions corresponding to the tooth sockets 3, so that the first lower plate 42 and the second lower plate 43 are not in direct contact with the tooth sockets 3, and the reciprocating movement of the lock cylinder 4 is not affected. The first side plates 45 can be positioned on two sides of the lock cylinder 4, so as to clamp the lock cylinder 4 and ensure the reciprocating deviation of the lock cylinder 4. The first upper plate 44 can be disposed above the lock cylinder 4 and always contacts with the lock cylinder 4, that is, no matter the lock cylinder 4 is completely retracted or maximally extended, the lock cylinder 4 always contacts with the first upper plate 44, so that the first upper plate 44 can cooperate with the lock hole, the gear 52, the second lower plate 43 and the first side plate 45 to limit the lock cylinder 4 in a fixed reciprocating space. It can be understood that the above is only the basic installation requirement of the lock cylinder 4, and the installation and built-in structure of the lock cylinder 4 can limit the reciprocating space position of the lock cylinder 4 within the function requirement range.

It can be understood that sliding friction is generated between the lock cylinder 4 and the first lower plate 42, the second lower plate 43, the first upper plate 44 and the first side plate 45, and fixed tracks, slideways and the like can be arranged for optimization.

In the embodiment of the present invention, the mechanical portion 5 includes a handle 51, a gear 52, a rotating shaft 53, and a housing 54. For fixed connection between axis of rotation 53 and the gear 52, form linkage structure, in the axis of rotation 53 to with the switch door in and be located the below of lock core 4, gear 52 can mesh with tooth's socket 3, can set up to rotating connection between axis of rotation 53 and the switch door, wherein, the one end of axis of rotation 53 extends to the outside of switch door and handle 51 rigid coupling for when rotating handle 51, can rotate through axis of rotation 53 drive gear 52, thereby drive lock core 4 through tooth's socket 3, make it reciprocating motion. It will be appreciated that the direction of movement of the lock cylinder 4 is related to the direction of rotation of the handle 51 and may be arranged as appropriate.

It can be understood that the lock core 4 extends out of the switch door to be locked with the electric driving part 6 behind the sealing frame 14, so as to close the switch door; the lock core 4 is unlocked and released with the electric driving part 6 in the sealing frame 14, and the lock core 4 retracts into the switch door, so that the switch door is opened.

It can be understood that the housing 54 can be covered on the exposed portion of the mechanical portion 5 to form a sleeved connection, and can be removed and installed at any time for cleaning and disinfection.

In the embodiment of the present invention, the electric driving unit 6 includes a hook arm 61, a driving device 62, and a latch hook 31. The electric driving part 6 can be arranged at the rear part of the sealing frame 14 and fixedly connected with the integrated wall 9, so that the stability of the locking structure is enhanced. A lock hole may be provided at a corresponding position of the sealing frame 14 to allow the lock cylinder 4 to pass therethrough. The length of the hook arm 61 can be set according to the actual situation and will not be described in detail. One end of the hook arm 61 is provided with a lock hook 31, and the lock hook 31 is matched with a stop part of the lock cavity 32 to form a locking structure; the other end of the hook arm 61 is connected with a driving device 62, the driving device 62 is used for driving the hook arm 61 to swing up and down, the normal state is a state of being placed below and not being locked, at the moment, the lock cylinder 4 can freely reciprocate, and the lock cavity 32 is not locked with the lock hook 31.

The electric drive 6 further includes a trigger 46, and when the key cylinder 4 abuts against the trigger 46, indicating that the lock chamber 32 has reached a predetermined position, the electric drive 6 can perform a locking operation. It will be appreciated that the trigger 46 may be a pressure sensor which, when receiving the abutment pressure of the lock cylinder 4, generates a trigger signal to enable the locking operation.

It can be understood that the lower end of the locking hook 31 can be arranged in an arc-shaped structure, so as to reduce the friction between the locking hook 31 and the inclined bottom, and facilitate the locking hook 31 to enter the locking cavity 32 under a normal state. When the lock hook 31 is in the lock cavity 32, the driving device 62 swings the hook arm 61 upwards, and then the lock hook 31 swings upwards along with the hook arm and is locked with the lock cavity 32; the driving device 62 swings the hook arm 61 downward, and the locking hook 31 swings downward to unlock and release the locking cavity 32.

The embodiment of the utility model provides an in, still include negative pressure device for change the air in window form frame 1, avoid the air of both sides to circulate. The negative pressure device can include an air inlet pipe 7 and a negative pressure pipe 8, the air inlet pipe 7 and the negative pressure pipe 8 can sequentially penetrate through the inner containing space of the embedded frame 13, the sealing frame 14 and the window frame 1 to be communicated, air inlet electric valves can be arranged on the air inlet pipe 7, and negative pressure electric valves can be arranged on the negative pressure pipe.

When both doors are closed, the window frame 1 is sealed and air is not circulated. At the moment, the air in the air conditioner can be replaced for the first time through the air inlet pipe 7 and the negative pressure pipe 8; after the air replacement is finished, closing the negative pressure electric valve and keeping the opening state of the air inlet electric valve; triggering the electric drive part 6 of the first side door 11 to unlock and the electric drive part 6 of the second side door 12 to keep a locked state; rotating the handle 51 of the mechanical part 5 of the first side door 11 to open the door, and putting the instrument into the accommodating tray 15; the first side door 11 is closed and the handle 51 of the mechanical part 5 of the first side door 11 is rotated. In the process of opening the first side door 11, the air inlet pipe 7 is always kept in a working state.

After the instrument is placed in the accommodating disc 15 in the window frame 1, the negative pressure pipe 8 is opened again to perform the second replacement of the internal air; after the air replacement is finished, closing the negative pressure electric valve and keeping the opening state of the air inlet electric valve; triggering the electric drive part 6 of the second side door 12 to unlock and the electric drive part 6 of the first side door 11 to lock; turning the handle of the mechanical part 5 of the second side door 12 to open the door and take out the internal apparatus; closing the second side door 12, rotating the handle 51 of the mechanical part 5 of the second side door 12, and closing the air inlet electric valve of the air inlet pipe 7; the electric drive portions 6 of both the side doors are locked. In the process of opening the second side door 12, the air inlet pipe 7 is always kept in a working state.

It will be appreciated that the air exchange operation of the negative pressure device and the unlocking/locking of the electric drive 6 can be controlled in a coordinated manner by means of a PLC controller.

In the embodiment of the utility model, the first window 112 can be arranged on the first side door 11, and the transparent glass is arranged in the first window 112 to be hermetically mounted with the first side door 11, so that the staff in the decontamination room can observe whether the instruments in the transmission window are taken away; set up second window 122 on the second side door, set up transparent glass and second side door 12 in the second window 122 and carry out seal installation, the nurse of the room of taking of being convenient for observes whether the apparatus in the pass box is placed, waits for taking.

The embodiment of the utility model provides an in, intake pipe 7 remains operating condition throughout, under the encapsulated situation, can increase the inside atmospheric pressure of window form frame 1, is favorable to opening the switch door of 1 both sides of window form frame under the encapsulated situation, and when opening, the inside atmospheric pressure of window form frame 1 is greater than external environment, can prevent that bacterium, dust from entering into in window form frame 1.

The embodiment of the utility model provides an in, can set up a plurality of window body frames 1 simultaneously on the integrated wall 9 for transmit the apparatus, the surface of integrated wall 9 can set up plaque 91, also can set up sealing strip 16 between plaque 91 and the switch door. Specifically, the seal strips 16 may be disposed between the trim panel 91 and the four end surfaces of the first side door 11 and the second side door 12 to enhance the sealing effect.

Further, when the negative pressure device corresponds to a plurality of window frames 1, please refer to fig. 2, the air inlet pipe 7 may be provided with a plurality of branch pipes in parallel, the negative pressure pipe 8 may be provided with a plurality of branch pipes in parallel, no branch pipe is provided with an electrically operated valve independently, as shown in fig. 2, the air inlet branch pipe of the upper window frame 1 is provided with a first air inlet valve 71, and the negative pressure branch pipe is provided with a first air outlet valve 81; a second air inlet valve 72 is arranged on an air inlet branch pipe of the lower window frame 1, and a second air outlet valve 82 is arranged on a negative pressure branch pipe; it can be understood that the first air inlet valve 71, the second air inlet valve 72, the first air outlet valve 81 and the second air outlet valve 82 are all independently arranged and can be controlled through an intelligent terminal.

The embodiment of the utility model provides an in, drive arrangement 62 can fix turned angle's motor, at certain angle internal rotation hook arm 61 for hook arm 61 can the luffing motion, thereby control latch hook 31 and lock chamber 32's locking and release.

The embodiment of the utility model provides an in, holding dish 15 has still been placed to window form frame 1's inside, holding dish 15 is used for holding the apparatus for the apparatus does not carry out direct contact with window form frame 1's inner structure, holding dish 15 can take out.

The embodiment of the utility model provides an in, can all set up integrated terminal 2 between clear disappearing, take for carry out staff's interaction. The integrated terminal 2 may include a recognition module, a voice module, a data processing module, and a human-computer interaction module.

Wherein, identification module can include facial recognition unit, fingerprint identification unit, tone quality recognition unit for obtain staff's identity information, authority etc. and take record, work demand etc. according to in the past and recommend staff's demand apparatus.

Wherein, voice module can include voice broadcast unit, speech recognition unit etc. for the speech input information, the broadcast demand information and the follow-up information of taking of discerning the demand staff.

The data processing module can comprise a database query unit, a search unit, a recording unit, a classification unit and the like and is used for querying and calling demand information input by workers, forming feedback, and after taking is completed, classifying and sorting.

The human-computer interaction module can comprise a touch screen unit, a key unit and the like and is used for inputting information, displaying feedback information, searching results, recommending instruments and the like.

The efficiency of information exchange between the improvement staff that can be very big, no direct contact promotes the isolation effect.

It is noted that, herein, relational terms such as first and second, and the like may be used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Also, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus. Without further limitation, an element defined by the phrase "comprising an …" does not exclude the presence of other identical elements in a process, method, article, or apparatus that comprises the element.

The foregoing is a more detailed description of the invention, taken in conjunction with the specific preferred embodiments thereof, and it is not intended to limit the invention to the specific embodiments thereof. To the utility model belongs to the technical field of ordinary technical personnel, do not deviate from the utility model discloses under the prerequisite of design, can also make a plurality of simple deductions or replacement, all should regard as belonging to the utility model discloses a protection scope.

Claims (10)

1. The utility model provides a pass-through box that endoscope center used, its characterized in that, includes window body frame (1), door lock device, integrated wall (9), place in window body frame (1) in integrated wall (9) just window body frame (1) is provided with and is used for sealing the switch door of window body frame (1), switch door with be provided with door lock device between window body frame (1), door lock device includes lock core (4), mechanical part (5), electricity drive portion (6), mechanical part (5) are used for manual movement lock core (4) are gone on the opening/closing of switch door, electricity drive portion (6) are used for locking/release lock core (4).

2. The transfer window used in an endoscope center according to claim 1, characterized in that said window frame (1) further comprises an embedded frame (13) and a sealing frame (14), said embedded frame (13) is a rectangular frame and is embedded in said integrated wall (9), said internal frame (13) is internally provided with a sealing frame (14); the window frame (1) is internally provided with an accommodating disc (15) for accommodating instruments.

3. The transfer window used in an endoscope center according to claim 2, characterized in that the opening and closing door comprises a first side door (11) and a second side door (12), the first side door (11) is arranged at one end of the embedded frame (13) positioned in the washing and disinfecting room, and the second side door (12) is arranged at one end of the embedded frame (13) positioned in the taking room, so that instruments in the washing and disinfecting room can be transferred to the taking room through the window frame (1); a first sealing element (111) is arranged on the inner side of the first side door (11), a second sealing element (121) is arranged on the inner side of the second side door (12), the first sealing element (111) and the second sealing element (121) can be inserted into the sealing frame (14), and sealing strips (16) are arranged between the sealing frame (14) and the first sealing element (111) and between the sealing frame (14) and the second sealing element (121), so that the window frame (1) can be sealed by the opening and closing door; the first sealing element (111), the second sealing element (121) and all be provided with between sealing frame (14) door lock device, sealing frame (14) first sealing element (111) all be provided with the confession on the second sealing element (121) the lockhole that lock core (4) passed, the aperture of lockhole is less than the butt joint face of sealing strip (16).

4. The transfer window used in an endoscope center according to claim 1, characterized in that the lock cylinder (4) comprises a tooth groove (3) and a lock cavity (32), the tooth groove (3) is arranged on the lower bottom surface of the lock cylinder (4), the lock cavity (32) is arranged at the front end of the lock cylinder (4), the lock cylinder (4) is arranged in the switch door, a limiting plate (41) is arranged at the tail end of the lock cylinder (4), a first lower plate (42) and a second lower plate (43) are arranged below the lock cylinder (4), a first upper plate (44) is arranged above the lock cylinder (4), and first side plates (45) are arranged on two sides of the lock cylinder (4).

5. A transfer window used in an endoscope center according to claim 4, characterized in that said mechanical portion (5) comprises a handle (51), a gear (52), a rotation shaft (53), a housing (54), said gear (52) is fixed with said rotation shaft (53), said rotation shaft (53) is connected with said opening and closing door in rotation, said rotation shaft (53) extends to the outside of said opening and closing door and is fixed with said handle (51), so that said handle (51) can rotate said gear (52) through said rotation shaft (53), said housing (54) is sleeved on the structure of said mechanical portion (5) exposing said opening and closing door; the gear (52) is meshed with the tooth grooves (3), the lock cylinder (4) can be moved back and forth along the running direction of the tooth grooves (3) by rotating the handle (51), and the lock cylinder (4) extends out of the switch door to be locked with the sealing frame (14), so that the switch door is closed; the lock cylinder (4) is unlocked and released from the sealing frame (14), and the lock cylinder (4) retracts into the switch door, so that the switch door is opened.

6. The transmission window for an endoscope center according to claim 4, characterized in that the electric driving part (6) is disposed behind the sealing frame (14) and is fixedly connected to the integrated wall (9), the electric driving part (6) comprises a hook arm (61), a driving device (62) and a locking hook (31), the driving device (62) is used for driving the hook arm (61) to swing up and down, the front end of the hook arm (61) is provided with the locking hook (31), the upper portion of the lock cavity (32) is provided with a stop portion in cooperation with the locking hook (31), and the locking hook (31) is locked with the lock cavity (32) by swinging up the driving device (62); the locking hook (31) is pivoted downwards by the drive device (62) so that the locking hook (31) is released from the locking chamber (32).

7. The transfer window used in the center of an endoscope, according to claim 5, characterized in that said first lower plate (42) and said second lower plate (43) are respectively disposed on both sides of said gear (52), said first lower plate (42) and said second lower plate (43) are provided with notches at positions corresponding to said tooth sockets (3), said first lower plate (42) and said second lower plate (43) are not in direct contact with said tooth sockets (3); the first upper plate (44) is always in contact with the lock cylinder (4).

8. The transfer window used in an endoscope center according to claim 2, characterized by further comprising a negative pressure device, wherein the negative pressure device comprises an air inlet pipe (7) and a negative pressure pipe (8), the air inlet pipe (7) and the negative pressure pipe (8) sequentially penetrate through the embedded frame (13), the sealing frame (14) and the inner space of the window body frame (1) to be communicated, an air inlet electric valve is arranged on the air inlet pipe (7), and a negative pressure electric valve is arranged on the negative pressure pipe (8).

9. An endoscope center delivery window of using according to claim 1, characterized in that, be provided with a plurality of window frames (1) on integrated wall (9), integrated wall (9)'s surface is provided with plaque (91), be provided with between plaque (91) and the switch door sealing strip (16).

10. The delivery window for an endoscope center according to claim 1, characterized by further comprising an integrated terminal (2), wherein the integrated terminal (2) comprises a recognition module, a voice module, a data processing module, and a human-computer interaction module.

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