CN216318610U - Integrated quick-assembling type air pressure control isolation area channel isolation device - Google Patents

Integrated quick-assembling type air pressure control isolation area channel isolation device Download PDF

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Publication number
CN216318610U
CN216318610U CN202120481127.5U CN202120481127U CN216318610U CN 216318610 U CN216318610 U CN 216318610U CN 202120481127 U CN202120481127 U CN 202120481127U CN 216318610 U CN216318610 U CN 216318610U
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China
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isolation
arc
channel
air
framework
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CN202120481127.5U
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Chinese (zh)
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王平和
董跃
邓小龙
王娜
邓小广
梅树雄
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Individual
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Abstract

The utility model provides an integrated quick-lap type air pressure control type isolation area channel isolation device which comprises a first isolation channel cabin and telescopic adjusting isolation panels arranged on the two sides and the top end of the first isolation channel cabin, wherein the first isolation channel cabin is provided with a first isolation channel; the first isolation channel cabin is a semicircular columnar assembly and comprises a first assembly box and a first half-edge assembly arranged at the bottom end of the first assembly box; the first component box is provided with an accommodating cavity, and a controller, a motor, an electric fan, an air compressor and an atomizer are arranged in the accommodating cavity; the motor, the electric fan, the air compressor and the atomizer are all in communication connection with the controller. This application installation is simple swift, and is quick detachable, and the flexibility is strong, adaptable various complicated changeable building passageway environment, and the result of use is better, can satisfy at ordinary times, when epidemic situation and the normal and quick alternative use of scene during the wartime.

Description

Integrated quick-assembling type air pressure control isolation area channel isolation device
Technical Field
The utility model relates to the technical field of isolation devices, in particular to an integrated quick-lap type air pressure control type isolation region channel isolation device.
Background
In recent years, the incidence of global infectious diseases is high, and many new infectious viruses and bacteria frequently enter the visual field of people. Meanwhile, the continuous improvement of social openness and integration degree brings great convenience to social life, and meanwhile, the spreading speed of infectious diseases and negative influence on the society are increased, and the effective control of the infectious diseases has profound influence. Therefore, the isolation, prevention and control of public health infectious diseases are enhanced, and the significance is extremely great.
At present, the infectious disease isolation device on the market is loaded down with trivial details in the installation process, and difficult dismantlement after the installation, the flexibility is lower, can not adapt to various complicated changeable building passageway environment, does not accord with medical treatment isolation protection principle (three districts two passageways) at all even, keeps apart the result of use poor, can't satisfy the emergent alternate use in peacetime, epidemic time and wartime scene.
SUMMERY OF THE UTILITY MODEL
Based on this, the primary object of the embodiments of the present invention is to provide an integrated quick-assembling type air pressure control type isolation region channel isolation device, which aims to solve the problems that the isolation device is complicated in installation process, not easy to detach after installation, low in flexibility, incapable of adapting to various complex and changeable building channel environments, not in accordance with the medical isolation protection principle, poor in isolation use effect, and incapable of meeting normal emergency alternate use in ordinary times, epidemic situations and wartime scenes. The device can be applied to buildings needing isolation, such as infectious disease hospitals, P3 laboratories and the like.
In order to achieve the purpose, the utility model provides the following technical scheme: an integrated quick-lap type air pressure control type isolation area channel isolation device comprises a first isolation channel cabin and telescopic adjusting isolation panels arranged on two sides and the top end of the first isolation channel cabin; the first isolation channel cabin is a semicircular columnar assembly and comprises a first assembly box and a first half-edge assembly arranged at the bottom end of the first assembly box; the first component box is provided with an accommodating cavity, and a controller, a motor, an electric fan, an air compressor and an atomizer are arranged in the accommodating cavity; the motor, the electric fan, the air compressor and the atomizer are all in communication connection with the controller.
The first isolation channel cabin is used as an integrated component unit of the isolation channel device, and can be combined into different functional application scenes according to different scenes and different requirements, such as three-region two-channel, channel air flow management and the like.
Further, the integrated quick-lap type air pressure control isolation area channel isolation device further comprises a second isolation channel cabin which is connected with the first isolation channel cabin in a butting mode, the first isolation channel cabin is the same as the second isolation channel cabin in structure, and the second isolation channel cabin comprises a second component box and a second half-side component which is arranged at the bottom end of the second component box.
Further, the first semi-edge component comprises a first semi-cylindrical support, a first arc-shaped door, a second arc-shaped door, a first internal pressure gauge, a first external pressure gauge, a first air shower, a second air shower and a first LED lamp; the first semi-cylindrical support comprises a first framework, a first bottom plate arranged at the bottom end of the first framework, a first cover plate arranged at the top end of the first framework and a first partition plate arranged on the side surface of the first framework; a first arc-shaped sliding rail is arranged on the first framework; the first arc-shaped door and the second arc-shaped door are respectively matched with the first arc-shaped sliding rail; the first air shower is arranged on the side wall of the partition plate; the first built-in pressure gauge is arranged on the inner side wall of the first framework; the first external pressure gauge is arranged on the outer side wall of the first framework; the first LED lamp and the second air shower are arranged on one side, far away from the assembly box, of the first cover plate.
Further, an arc-shaped sliding groove is formed in the first arc-shaped sliding rail; the arc-shaped sliding groove is matched with the pulleys on the first arc-shaped door and the second arc-shaped door; a reset groove is arranged on the arc-shaped sliding groove; the reset groove comprises a first reset groove and a second reset groove which are mutually independent; the first reset groove and the second reset groove are respectively matched with the pulley. The first reset groove and the second reset groove are both provided with two reset grooves with the same function. When the first arc-shaped door is closed, the corresponding pulley is positioned in the first reset groove, when the door needs to be opened, the pulley slides into the main rail of the arc-shaped sliding groove from the first reset groove and slides to the end part of one side of the second reset groove along the main rail of the arc-shaped sliding groove, and when the door is closed, the first arc-shaped door slides back to the first reset groove.
Further, the first arc-shaped door and the second arc-shaped door are quarter arc-shaped doors.
Furthermore, the first arc-shaped door and the second arc-shaped door are both provided with a first perspective window; through the first perspective window, the actual conditions inside and outside the first half component can be observed.
Further, still be provided with first emergency brake button and first ultraviolet lamp on the inside wall of first skeleton, first emergency brake button set up in the below of first ultraviolet lamp, first ultraviolet lamp set up in the top of first skeleton inside wall. The first emergency brake button can brake the first half-side assembly in an emergency, so that the safety of personnel is guaranteed, and the outside can be called for help in time; when no person is in the first half module, the first ultraviolet lamp isolation channel cabin is opened, the radiation sterilization in the first half module can be continuously carried out, and when a person needs to pass through the first half module, the first ultraviolet lamp is closed.
Further, the bottom of first skeleton lateral wall still is provided with and is used for controlling first kick switch that first arc door opened.
Further, a first disinfection carpet is arranged on the first bottom plate; the first disinfection carpet can clean medical personnel entering the buffer zone for the first time, and prevents an external infection source from entering the buffer zone.
Furthermore, a plurality of first air holes used for air circulation are formed in the first air shower and the second air shower.
Furthermore, a first spraying hole is also formed in the second air shower; the first spray hole is matched with the first output end of the atomizer, and disinfectant atomized by the atomizer is released into the first half-side assembly for cleaning or disinfection.
Furthermore, a control panel in communication connection with the controller is arranged on the outer side wall of the first framework. Through the control panel, relevant parameters of the first half assembly can be set.
Furthermore, still be provided with on the first skeleton inside wall with controller communication connection's emergent button. When the first half assembly breaks down, personnel closing the first half assembly can open the first arc door or the second arc door through the emergency button, and accidents are prevented.
Further, the second half-side assembly comprises a second semi-cylindrical support, a third arc-shaped door, a fourth arc-shaped door, a second built-in pressure gauge, a second external pressure gauge, a third air shower, a fourth air shower and a second LED lamp; the second semi-cylindrical support comprises a second framework, a second bottom plate arranged at the bottom end of the second framework, a second cover plate arranged at the top end of the second framework and a second partition plate arranged on the side face of the second framework; a second arc-shaped sliding groove is formed in the second framework; the third arc-shaped door and the fourth arc-shaped door are respectively matched with the second arc-shaped sliding groove; the third air shower is arranged on the side wall of the second partition plate; the second built-in pressure gauge is arranged on the inner side wall of the second framework; the second external pressure gauge is arranged on the outer side wall of the second framework; the second LED lamp and the fourth air shower are arranged on one side, far away from the assembly box, of the second cover plate.
Further, the third arc-shaped door and the fourth arc-shaped door are quarter arc-shaped doors.
Furthermore, second perspective windows are arranged on the third arc-shaped door and the fourth arc-shaped door; through the second perspective window, the actual conditions inside and outside the second half assembly can be observed.
Further, still be provided with second emergency braking button and second ultraviolet lamp on the inside wall of second skeleton. The second emergency brake button can brake the second half-side assembly in case of emergency, so that the safety of personnel is ensured, and the outside is called for help in time; when no person is in the second half-side assembly, the second ultraviolet lamp isolation channel cabin is opened, and radiation sterilization can be continuously performed on the second half-side assembly; when personnel need to pass through the second half-side assembly, the second ultraviolet lamp is turned off.
Furthermore, the bottom end of the outer side wall of the second framework is also provided with a second kick switch used for controlling the second arc-shaped door to be opened.
Further, a second disinfection carpet is arranged on the second bottom plate; the second sterile carpet can further prevent sources of infection from entering the cleaning area.
Furthermore, a plurality of second air holes used for air circulation are formed in the third air shower and the fourth air shower.
Further, a second spraying hole is also formed in the third air shower; the second spray hole is matched with the second output end of the atomizer, and disinfectant atomized by the atomizer is released into the second half-side assembly for cleaning or disinfection.
Furthermore, a control panel in communication connection with the controller is arranged on the outer side wall of the second framework. Through the control panel, the relevant parameters of the second half assembly can be set.
Furthermore, an emergency button in communication connection with the controller is further arranged on the inner side wall of the second framework. When breaking down, the personnel of closing in half subassembly of second can open third arc door or fourth arc door through emergency button, prevents unexpected the emergence.
Further, the telescopic adjusting isolation panel comprises side panels arranged on two sides of the first isolation channel cabin and a top panel arranged at the top end of the first isolation channel cabin.
Further, the side panel comprises a first upright post, a second upright post and a side clamping plate arranged between the first upright post and the second upright post; one side of the first upright post, which is far away from the side clamping plate, is connected with the first isolation channel cabin; the bottom end of the side clamping plate is provided with a bottom kicking foot, and the top end of the side clamping plate is provided with a first closing-in port; the side clamping plates comprise first clamping plates and second clamping plates arranged at the top ends of the first clamping plates; an I-shaped connecting piece is arranged between the first clamping plate and the second clamping plate; the top end panel comprises a top clamping plate arranged at the top end of the first isolation channel cabin and a second closing-in arranged at the top end of the top clamping plate.
In this embodiment, use hospital's building standard as the direction to keep apart the vertical and horizontal distance that the panel expanded and be the basis, first stand the second stand first splint the second splint first binding off the second binding off top splint the foot is played with the I-shaped chain link is equallyd divide and is had the specification of multiple looks adaptation, makes things convenient for the different scenes to build the equipment fast.
Further, the first upright post and the second upright post are identical in structure; one end of the first upright post is wide, and the other end of the first upright post is narrow; the narrow opening of the first upright column and the narrow opening of the second upright column are matched with the side clamping plates.
Further, a wide opening of the first upright post is provided with a first air bag for sealing, and the first air bag is connected with the electric fan; after being inflated and expanded, the first air bag can fill the gap between the first upright post and the first isolating channel cabin, so that the sealing effect is achieved.
Furthermore, a wide opening of the second upright post is provided with a second air bag for sealing, and the second air bag is connected with the electric fan; the second air bag can be filled in the gap between the second upright post and the wall surface of the hospital channel after being inflated and expanded, and the sealing effect is achieved.
Furthermore, a third perspective window is also arranged on the first clamping plate; through the third perspective window, the specific conditions on two sides of a hospital channel can be known in real time, and personnel can conveniently visit the hospital channel.
The integrated quick-lap type air pressure control type isolation area channel isolation device is applied to buildings needing isolation, such as hospitals, P3 laboratories, hotels, polluted areas and the like; according to actual needs, a single isolation device or a plurality of isolation devices can be combined and applied through the snap connection.
The utility model provides an isolating device can realize the air current management, and the concrete principle is as follows:
compared with a common plane vertical hinged door (mainly moving at a wide angle and greatly interfering with air flow), the arc-shaped door (mainly moving at an acute angle (namely a small angle)) is adopted, so that the interference on the air flow of a channel is less, and the air flow of the channel is not generated and/or enhanced basically; and the arc door increases the three-dimensional space of the door opening range, and is matched with air pressure management and alternate opening of the two arc doors, so that the flow management of air generated by the passage in and out is effectively realized, and the problems of the passage isolation perfectness, effectiveness, tightness and the like are solved. Through the different form combination of this application structure, can effectually accomplish the medical isolation principle that the scene was not used such as "three districts two passageways", accord with the requirement of medical principle "three districts two passageways, air flow management".
When medical staff enter a pollution area, the medical staff enter a first half-side assembly from a clean area, the controller controls the air compressor to pressurize the first half-side assembly in the atomization disinfection and air shower disinfection processes of the medical staff, when the reading of a first built-in pressure gauge is larger than the reading of a first external pressure gauge by 15Pa, a second arc door is opened, and a positive pressure state (about positive pressure 15Pa, a safe pressure state endured by a human body and comfortable feeling of the human body) in the first half-side assembly is kept; at the moment, the air in the first half-side assembly flows to the buffer area in a one-way mode, and the medical staff reach the buffer area; medical personnel can wear protective clothing in the buffers. On the same principle, medical staff can enter the polluted area from the buffer area after passing through the group of first half-edge assemblies. Because the first half-side assembly passing through from the cleaning area to the buffer area and then to the pollution area is internally provided with positive pressure (about positive pressure 15pa), air can continuously flow from the cleaning area to the buffer area and then to the pollution area, the air in the pollution area can be ensured not to flow to the cleaning area outside the channel, all the entering air comes from the cleaning area, and a good air flow effect can be formed in the whole channel.
When the medical staff gets out of the polluted area, the medical staff enters the second half-edge assembly from the polluted area, and the third arc-shaped door is closed; in the process of carrying out 360-degree atomization disinfection and air shower disinfection on medical personnel, the controller controls the air compressor to reduce the pressure in the first half-side assembly; when the reading of the second built-in pressure gauge is smaller than the reading of the second external pressure gauge by 15Pa, the fourth arc-shaped door is opened, and the negative pressure state (about negative pressure of 15Pa, a safe pressure state endured by a human body and comfortable body feeling) in the second half-side assembly is kept; at the moment, air flows into the second half assembly in a one-way mode, and the air is prevented from flowing out of the buffer area; after the medical care personnel reach the buffer zone from the polluted zone, the protective clothing can be replaced in the buffer zone. On the same principle, the medical staff can enter the cleaning area from the buffer area after passing through the second half-edge assembly once again. Because the second half assembly passing from the pollution area to the buffer area and then to the cleaning area is internally provided with negative pressure (about negative pressure 15pa), the air in the pollution area can be ensured not to flow into the cleaning area or the buffer area, all the discharged air is discharged into the pollution area after being filtered by the air pipe, and a good air flowing effect can be formed in the whole channel.
The integrated quick-lap type air pressure control type isolation area channel isolation device provided by the utility model can well meet various use places (such as hospitals or P3 laboratories and other places needing isolation) with different needs by combined use or single use of the isolation channel cabin, and has strong flexibility. Through the cooperation of the air compressor and the arc door on the half subassembly, and then guide air uniflow effectively, realized the demand of air isolation. Can be according to the needs of in-service use, through setting up the isolation panel of the different specifications of multiunit, be favorable to keep apart the passageway cabin and build the equipment fast in the scene of difference, it is very convenient. Through the arc door in the isolation passageway cabin with set up perspective window on the isolation panel, can know in real time the isolation passageway cabin inside and outside with the condition of isolation panel both sides, the medical personnel of being convenient for communicate and exchange.
Drawings
In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to the structures shown in the drawings without creative efforts.
FIG. 1 is an exploded view of a first half assembly in accordance with one embodiment of the present invention;
FIG. 2 is a schematic diagram of an embodiment of an integrated quick-fit type isolation area channel isolation device;
FIG. 3 is a schematic view showing an internal structure of the first module case of FIG. 2;
FIG. 4 is a schematic structural diagram of the first arcuate rail shown in FIG. 2;
FIG. 5 is an exploded view of the telescopically adjustable insulated panel of FIG. 2;
fig. 6 is a top view of the first upright of fig. 5.
FIG. 7 is a schematic diagram of an integrated quick-mounting type air pressure control type isolation area channel isolation device applied to hospital channels according to an embodiment of the present invention;
fig. 8 is an enlarged view of a portion of the access port of fig. 7.
The implementation, functional features and advantages of the objects of the present invention will be further explained with reference to the accompanying drawings.
Detailed Description
The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.
It should be noted that, if directional indications (such as up, down, left, right, front, back, top and bottom … …) are involved in the embodiment of the present invention, the directional indications are only used to explain the relative position relationship between the components, the motion situation, etc. in a specific posture (as shown in the drawing), and if the specific posture is changed, the directional indications are changed accordingly.
In this application, unless expressly stated or limited otherwise, the terms "mounted," "connected," "secured," and the like are to be construed broadly and can include, for example, fixed connections, removable connections, or integral parts; can be mechanically or electrically connected; they may be directly connected or indirectly connected through intervening media, or they may be connected internally or in any other suitable relationship, unless expressly stated otherwise. The specific meaning of the above terms in the present application can be understood by those of ordinary skill in the art as appropriate.
It will be understood that when an element is referred to as being "secured to" or "disposed on" another element, it can be directly on the other element or intervening elements may also be present. When an element is referred to as being "connected" to another element, it can be directly connected to the other element or intervening elements may also be present.
In addition, if there is a description of "first", "second", etc. in an embodiment of the present invention, the description of "first", "second", etc. is for descriptive purposes only and is not to be construed as indicating or implying relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defined as "first" or "second" may explicitly or implicitly include at least one such feature. In addition, technical solutions between various embodiments may be combined with each other, but must be realized by a person skilled in the art, and when the technical solutions are contradictory or cannot be realized, such a combination should not be considered to exist, and is not within the protection scope of the present invention.
At present, the installation process of the isolation device on the market is complex, the isolation device is not easy to detach after being installed, the flexibility is low, the isolation device cannot adapt to various complex and changeable building channel environments, and the use effect is poor. In order to solve the technical problems, the utility model provides an integrated quick-mounting type air pressure control isolation area channel isolation device, which can be used for building an infectious disease isolation ward in accordance with the principles of infectious disease local management and local isolation, is convenient for normal and quick alternative use of normal, epidemic and wartime scenes, can be used for quickly building and distributing the infectious disease isolation ward on the basis of the original place (such as a hospital) when an epidemic situation occurs, and is low in cost and high in efficiency.
Compared with a common plane vertical hinged door, the arc-shaped door is adopted, so that the air flow interference of the channel is less, and the air flow of the channel is not generated and/or increased basically; and the arc door increases the three-dimensional space of the door opening range, and is matched with air pressure management and alternate opening of the two arc doors, so that the flow management of air generated by the passage in and out is effectively realized, and the problems of the passage isolation perfectness, effectiveness, tightness and the like are solved. Through the different form combination of this application structure, can effectually accomplish the medical isolation principle that the scene was not used such as "three districts two passageways", accord with the requirement of medical principle "three districts two passageways, air flow management".
As shown in fig. 1 to fig. 3, an integrated quick-lap type air pressure control type isolation area channel isolation device according to an embodiment of the present invention includes a first isolation channel cabin 1, and retractable adjustment isolation panels 2 disposed at two sides and a top end of the first isolation channel cabin 1; the first isolation channel cabin 1 is a semicircular columnar assembly and comprises a first assembly box 11 and a first half-edge assembly 12 arranged at the bottom end of the first assembly box 11; the first assembly box 11 is provided with an accommodating cavity 111, and the accommodating cavity 111 is internally provided with a controller 3, a motor 4, an electric fan 5, an air compressor 6 and an atomizer 7; the motor 4, the electric fan 5, the air compressor 6 and the atomizer 7 are all in communication connection with the controller 3.
In the present embodiment, the electric fan 5, the air compressor 6, and the atomizer 7 are each provided with a corresponding connecting duct 8. The application has no improvement on the connecting pipeline 8, and the arrangement of the general connecting pipeline can meet the requirement of the application. The half-side assembly of the isolation channel cabin can be controlled through the assembly box 11 and the controller 3, the motor 4, the electric fan 5, the air compressor 6 and the atomizer 7 which are arranged in the assembly box 11.
The first isolation channel cabin is used as an integrated component unit of the isolation channel device, and can be combined into different functional application scenes according to different scenes and different requirements, such as three-region two-channel, channel air flow management and the like.
Further, in other embodiments, the integrated quick-lap type air pressure control isolation region channel isolation device further includes a second isolation channel compartment (not shown) disposed in abutting contact with the first isolation channel compartment 1, the first isolation channel compartment 1 and the second isolation channel compartment have the same structure, and the second isolation channel compartment includes a second component box (not shown) and a second half component 13 disposed at a bottom end of the second component box.
Specifically, the first isolation channel cabin 1 and the second isolation channel cabin can be arranged in a butting manner through fixing modes such as clamping and buckling; the first component box and the second component box are arranged in a butting mode, and the first component box and the second component box are identical in structure; half limit subassembly and the half limit subassembly looks butt setting of second, half limit subassembly of first and the half limit subassembly of second structure is the same.
Referring to fig. 3, in the present embodiment, the first half-side assembly 12 includes a first half-cylinder support 121, a first arc-shaped door 122, a second arc-shaped door 123, a first built-in pressure gauge 124, a first external pressure gauge 125, a first air shower 126, a second air shower 127, and a first LED lamp 128; the first semi-cylindrical support 121 includes a first frame 1211, a first bottom plate 1212 disposed at a bottom end of the first frame 1211, a first cover plate 1213 disposed at a top end of the first frame 1211, and a first barrier 1214 disposed at a side of the first frame 1211; a first arc-shaped slide rail 1215 is arranged on the first framework 1211; the first arched door 122 and the second arched door 123 are respectively matched with the first arched sliding rail 1215; the first air shower 126 is disposed on a side wall of the first baffle 1214; the first built-in pressure gauge 124 is arranged on the inner side wall of the first framework 1211; the first external pressure gauge 125 is arranged on the outer side wall of the first framework 1211; the first LED lamp 128 and the second air shower 127 are both disposed on a side of the first cover plate 1213 away from the module case 11.
As shown in fig. 4, the first arcuate slide rail 1215 is provided with an arcuate slide groove 1218; the arc chute 1218 is adapted to the pulley of the first arc door 122 and the second arc door 123.
A reset groove 1219 is arranged on the arc-shaped sliding groove 1218; the reset slot 1219 comprises a first reset slot 1220 and a second reset slot 1222 independent of each other; the first and second reset grooves 1220 and 1222 are respectively fitted to the pulleys. In this embodiment, the first reset slot 1220 and the second reset slot 1222 are each provided with two reset slots having the same function. When the first curved door 122 is closed, the corresponding pulley block is located in the first reset slot 1220, and when the door needs to be opened, the pulley slides from the first reset slot 1220 into the main rail of the curved sliding slot 1218, and slides along the main rail of the curved sliding slot 1218 to abut against the end of the second reset slot 1222 near the side of the curved sliding slot 1218 (at this time, the corresponding pulley block of the second curved door 123 is located in the second reset slot 1222), and when the door is closed, the first curved door 122 slides back into the first reset slot 1220. In this application, the first and second arched doors 122 and 123 are staggered, that is, when the first arched door 122 opens, the second arched door 123 closes (when the second arched door closes, its corresponding pulley block is located in the second reset slot 1222), and vice versa, when the second arched door 123 opens, the first arched door 122 closes (when the corresponding pulley block of the first arched door is located in the first reset slot 1220). Thus, by employing arcuate doors (which primarily move at an acute (i.e., small) angle), the air flow to the channel is less disturbed, and the air flow to the channel is not substantially created/enhanced, thereby providing good air flow management.
Further, the first and second arc doors 122 and 123 are quarter arc doors. And halving the isolation channel cabin to obtain halved single bodies, wherein the doors formed by the cambered surfaces corresponding to the halved single bodies are quarter cambered doors. Specifically, in the present embodiment, the first arc-shaped door 122 and the second arc-shaped door 123 are symmetrically disposed on the skeleton 1211.
Further, the first arc-shaped door 122 and the second arc-shaped door 123 are both provided with a first transparent window 1221; through the first see-through window 1221, the actual conditions inside and outside the first half assembly 12 can be observed.
Further, a first emergency brake button 1216 and a first ultraviolet lamp (not shown) are further disposed on the inner sidewall of the first framework 1211, the first emergency brake button is disposed below the first ultraviolet lamp, and the first ultraviolet lamp is disposed at the top end of the inner sidewall of the first framework. The first emergency brake button 1216 can brake the first half module 12 in case of emergency, so as to ensure the safety of personnel and to ask for help from the outside in time; when no person exists in the first half-side assembly, the first ultraviolet lamp is turned on, and radiation sterilization can be continuously performed on the first half-side assembly; when personnel need to pass through the first half-side assembly, the first ultraviolet lamp is turned off.
Further, a first kick switch 1217 for controlling the opening of the first arc-shaped door 122 is further disposed at the bottom end of the outer side wall of the first framework 1211.
Further, a first disinfection carpet (not shown) is disposed on the first bottom plate 1212 (i.e. on the upper surface of the bottom plate); the first disinfection carpet can clean medical personnel entering the buffer zone for the first time, and prevents an external infection source from entering the buffer zone.
Further, the first air shower 126 and the second air shower 127 are both provided with a plurality of first air holes 1261 for air circulation.
Further, a first spray hole 1271 is further formed in the second air shower 127; the first spray hole 1271 is matched with the first output end of the atomizer 7, and the disinfectant atomized by the atomizer 7 is released into the first half component 12 for cleaning or disinfection.
Further, a control panel (not shown) which is in communication connection with the controller is arranged on the outer side wall of the first framework. Through the control panel, relevant parameters of the first half assembly can be set.
Furthermore, an emergency button (not shown) which is in communication connection with the controller is further arranged on the inner side wall of the first framework. When the first half assembly breaks down, personnel closing the first half assembly can open the first arc door or the second arc door through the emergency button, and accidents are prevented.
Similarly, in the present embodiment, the second half module 13 includes a second semi-cylindrical support, a third arc door, a fourth arc door, a second built-in pressure gauge, a second external pressure gauge, a third air shower, a fourth air shower and a second LED lamp; the second semi-cylindrical support comprises a second framework, a second bottom plate arranged at the bottom end of the second framework, a second cover plate arranged at the top end of the second framework and a second partition plate arranged on the side face of the second framework; a second arc-shaped sliding groove is formed in the second framework; the third arc-shaped door and the fourth arc-shaped door are respectively matched with the second arc-shaped sliding groove; the third air shower is arranged on the side wall of the second partition plate; the second built-in pressure gauge is arranged on the inner side wall of the second framework; the second external pressure gauge is arranged on the outer side wall of the second framework; the second LED lamp and the fourth air shower are arranged on one side, far away from the assembly box, of the second cover plate.
Further, the third arc-shaped door and the fourth arc-shaped door are quarter arc-shaped doors.
Furthermore, second perspective windows are arranged on the third arc-shaped door and the fourth arc-shaped door; through the second perspective window, the actual conditions inside and outside the second half assembly can be observed.
Further, still be provided with second emergency braking button and second ultraviolet lamp on the inside wall of second skeleton. The second emergency brake button can brake the second half-side assembly in case of emergency, so that the safety of personnel is ensured, and the outside is called for help in time; when no person is in the second half-side assembly, the second ultraviolet lamp is turned on, and radiation sterilization can be continuously performed on the second half-side assembly; when personnel need to pass through the second half-side assembly, the second ultraviolet lamp is turned off.
Furthermore, the bottom end of the outer side wall of the second framework is also provided with a second kick switch used for controlling the second arc-shaped door to be opened.
Further, a second disinfection carpet is arranged on the second bottom plate; the second sterile carpet can further prevent sources of infection from entering the cleaning area.
Furthermore, a plurality of second air holes used for air circulation are formed in the third air shower and the fourth air shower.
Further, a second spraying hole is also formed in the third air shower; the second spray hole is matched with the second output end of the atomizer, and disinfectant atomized by the atomizer is released into the second half-side assembly for cleaning or disinfection.
Furthermore, a control panel (not shown) which is in communication connection with the controller is arranged on the outer side wall of the second framework. Through the control panel, the relevant parameters of the second half assembly can be set.
Furthermore, an emergency button (not shown) which is in communication connection with the controller is further arranged on the inner side wall of the second framework. When breaking down, the personnel of closing in half subassembly of second can open third arc door or fourth arc door through emergency button, prevents unexpected the emergence.
Referring to fig. 5, in the present embodiment, the telescopically adjustable isolation panel 2 includes side panels 21 disposed at both sides of the first isolation shaft capsule 1 and a top panel 22 disposed at the top end of the first isolation shaft capsule 1.
Specifically, the side panel 21 includes a first upright 211, a second upright 212, and a side clamping plate 213 disposed between the first upright 211 and the second upright 212; the side of the first upright post 211 away from the side clamping plate 213 is connected with the first isolation channel cabin 1; a bottom kicking leg 214 is arranged at the bottom end of the side clamping plate 213, and a first closing-in port 215 is arranged at the top end of the side clamping plate 213; the lateral splint 213 includes a first splint 2131 and a second splint 2132 disposed on the top end of the first splint 2131; an i-shaped link 216 is arranged between the first clamping plate 2131 and the second clamping plate 2132; the top panel 22 comprises a top clamping plate 221 arranged at the top end of the first isolation channel compartment 1, and a second closing-in 222 arranged at the top end of the top clamping plate 221.
In this embodiment, based on the extension longitudinal and lateral distances of the isolation panel, the first upright post 211, the second upright post 212, the first clamping plate 2131, the second clamping plate 2132, the first closing-in 215, the second closing-in 222, the top clamping plate 221, the bottom kick 214, and the i-shaped link 216 are respectively provided with multiple adaptive specifications, so as to facilitate rapid construction and assembly of different scenes.
Referring to fig. 6, in the present embodiment, the first upright 211 and the second upright 212 have the same structure; one end of the first upright column 211 is wide, and the other end of the first upright column 211 is narrow; the slot 2111 of the first upright 211 and the slot (not labeled) of the second upright 212 are adapted to the side clamping plate 213.
Further, a first air bag 217 for sealing is arranged on the wide opening 2112 of the first upright post 211, and the first air bag 217 is connected with the electric fan 5; the first air bag 217 can fill the gap between the first upright post 211 and the first isolation passageway compartment 1 after being inflated, so as to play a role of sealing.
Further, a second air bag 218 for sealing is arranged on a wide opening (not labeled in the figures) of the second upright column 212, and the second air bag 218 is connected with the electric fan 5; the second air bag 218 can fill the gap between the second upright 212 and the wall surface of the hospital passageway after being inflated, so as to play a role in sealing.
Further, a third transparent window 219 is further disposed on the first clamping plate 2131; the third perspective window 219 can be used for real-time understanding of the specific conditions on two sides of the hospital passageway, and is convenient for personnel to visit.
The internal pressure gauge 124, the brake button 1216, the external pressure gauge 125 and the kick switch 1217 are respectively in communication connection with the controller 3.
The integrated quick-lap type air pressure control type isolation area channel isolation device can meet the use requirements of various complex environments, and can be applied to buildings needing isolation, such as hospitals, P3 laboratories, hotels, polluted areas and the like; according to actual needs, a single isolation device or a plurality of isolation devices can be combined and applied through the snap connection.
Take will integrate and take formula atmospheric pressure control type isolation zone passageway isolating device soon to install at medical personnel's passageway as an example:
the installation process comprises the following steps: firstly, preparing a first isolation passage cabin 1 and a telescopic adjusting isolation panel 2 which are approximately matched with the size of a medical staff passage; the first isolation channel cabin 1 is arranged on the ground in the center of the channel, and two sides and the top end of the first isolation channel cabin 1 are clamped on the wall surface of the channel through isolation panels 2; treat the overall stability back, open electric fan will install first gasbag 217 and second gasbag 218 on the scalable regulation isolation panel 2 are aerifyd, up to scalable regulation isolation panel 2 with space between the first isolation passageway cabin 1 and the space between scalable regulation isolation panel 2 and the passageway wall is all filled up, guarantees holistic leakproofness.
As shown in fig. 7-8, the application of the isolation device of the present application to the three-zone two-way air flow management, when the medical staff enters the contaminated zone:
first, the first kick switch 1217 is started, the controller 3 receives the information and then controls the motor 4 to open the first arc door 122, and the medical staff enters the first half component 12 from the cleaning area; the controller 3 then controls the motor 4 to close the first arc-shaped door 122; meanwhile, the controller 3 starts the electric fan 5 and the atomizer 7, and carries out atomization disinfection and air shower disinfection on the medical personnel in the first half component 12 through the first air shower 126 and the second air shower 127; in the process of disinfecting the medical staff, the controller 3 controls the air compressor 6 to pressurize the interior of the first half-edge assembly 12, and when the reading of the first internal pressure gauge 124 is greater than the reading of the first external pressure gauge 125 by 15Pa, the controller 3 controls the motor 4 to open the second arc-shaped door 123 and maintain the positive pressure state (about positive pressure of 15Pa) in the interior of the first half-edge assembly 12; at this time, the air in the first half component 12 flows to the buffer area in one direction, and the medical staff reaches the buffer area; medical personnel can wear protective clothing in the buffers. In the same manner, the medical staff can enter the contaminated area from the buffer area after passing through the first half assemblies 12. Because the first half-edge component 12 passing from the clean area to the buffer area and then to the polluted area is provided with positive pressure (about positive pressure 15pa), air can continuously flow from the clean area to the buffer area and then to the polluted area, the air in the polluted area can be ensured not to flow to the clean area outside the channel, all the entering air comes from the clean area, and good air flowing effect can be formed in the whole channel.
When the medical staff gets out of the polluted area:
firstly, the second kick switch is started, the controller controls the motor to open the third arc-shaped door after receiving information, and medical personnel enter the second half-edge assembly 13 from a polluted area; then the controller controls the motor to close the third arc-shaped door; meanwhile, the controller starts the electric fan and the atomizer, and carries out 360-degree atomization disinfection and air shower disinfection on medical personnel in the second half-side assembly 13 through the third air shower and the fourth air shower, wherein the disinfection time can be set to be 60 seconds; during the disinfection process of the medical staff, the controller controls the air compressor to decompress the inside of the first half-module; when the reading of the second built-in pressure gauge is smaller than the reading of the second external pressure gauge by 15Pa, the controller controls the motor to open the fourth arc-shaped door and maintain the negative pressure state (about negative pressure of 15Pa) in the second half module; at this time, the air flows into the second half module 13 in a single direction, and the air is prevented from flowing out to the buffer area; after the medical care personnel reach the buffer zone from the polluted zone, the protective clothing can be replaced in the buffer zone. On the same principle, the medical staff can enter the cleaning area from the buffer area after passing through the second half-edge assembly once again. Because the second half-side assembly 13 passing from the polluted area to the buffer area and then to the clean area is internally provided with negative pressure (about negative pressure 15pa), the air in the polluted area can be ensured not to flow into the clean area or the buffer area, all the exhausted air is exhausted into the polluted area after being filtered by the air pipe filtering device, and a good air flowing effect can be formed in the whole channel.
In addition, a first half component and a second half component which are symmetrical are arranged in the patient passage, the first half component is used as an inlet of a patient entering a ward, the second half component is used as an outlet of the patient leaving the ward, and a sickbed and a trolley access are arranged between the first half component and the second half component (air showers and atomization are arranged above the first half component and the second half component for disinfection treatment); each ward in the ward area can be provided with a half-side assembly according to actual needs, so that air isolation management of a single ward can be realized, and cross infection in the isolation period is prevented. Other areas, such as a dirt channel, a sundry room and the like can also be provided with the half-edge assembly according to actual needs.
The integrated quick-lap type air pressure control type isolation area channel isolation device provided by the utility model can well meet various use places (such as hospitals or P3 laboratories and other places needing isolation) with different needs by combined use or single use of the isolation channel cabin, and has strong flexibility. Through the cooperation of the air compressor and the arc door on the half subassembly, and then guide air uniflow effectively, realized the demand of air isolation. Can be according to the needs of in-service use, through the scalable regulation isolation panel 2 that sets up the different specifications of multiunit, be favorable to first isolation passageway cabin 1 builds the equipment fast in the scene of difference, and is very convenient. Through the arc door at first isolation passageway cabin 1 with but set up perspective window on the telescopic adjustment isolation panel 2, can know in real time inside and outside the first isolation passageway cabin 1 with the condition of telescopic adjustment isolation panel 2 both sides is convenient for medical personnel to communicate and exchange.
The above description is only a preferred embodiment of the present invention, and not intended to limit the scope of the present invention, and all modifications and equivalents of the technical solutions of the present invention, which are made by using the contents of the present specification and the accompanying drawings, or directly/indirectly applied to other related technical fields, are included in the scope of the present invention.

Claims (10)

1. An integrated quick-lap type air pressure control type isolation area channel isolation device is characterized by comprising a first isolation channel cabin and telescopic adjusting isolation panels arranged on the two sides and the top end of the first isolation channel cabin; the first isolation channel cabin is a semicircular columnar assembly and comprises a first assembly box and a first half-edge assembly arranged at the bottom end of the first assembly box; the first component box is provided with an accommodating cavity, and a controller, a motor, an electric fan, an air compressor and an atomizer are arranged in the accommodating cavity; the motor, the electric fan, the air compressor and the atomizer are all in communication connection with the controller.
2. The integrated quick-lap type air pressure control isolation area channel isolation device according to claim 1, further comprising a second isolation channel chamber abutting against the first isolation channel chamber, wherein the first isolation channel chamber and the second isolation channel chamber have the same structure, and the second isolation channel chamber comprises a second component box and a second half component arranged at the bottom end of the second component box.
3. The integrated quick-overlap type air pressure control type isolation region channel isolation device according to claim 1, wherein the first half-side component comprises a first half-cylinder support, a first arc-shaped door, a second arc-shaped door, a first internal pressure gauge, a first external pressure gauge, a first air shower, a second air shower and a first LED lamp; the first semi-cylindrical support comprises a first framework, a first bottom plate arranged at the bottom end of the first framework, a first cover plate arranged at the top end of the first framework and a first partition plate arranged on the side surface of the first framework; a first arc-shaped sliding rail is arranged on the first framework; the first arc-shaped door and the second arc-shaped door are respectively matched with the first arc-shaped sliding rail; the first air shower is arranged on the side wall of the partition plate; the first built-in pressure gauge is arranged on the inner side wall of the first framework; the first external pressure gauge is arranged on the outer side wall of the first framework; the first LED lamp and the second air shower are arranged on one side, far away from the assembly box, of the first cover plate.
4. The integrated quick-overlap type air pressure control type isolation area channel isolation device according to claim 3, wherein an arc-shaped chute is arranged on the first arc-shaped slide rail; the arc-shaped sliding groove is matched with the pulleys on the first arc-shaped door and the second arc-shaped door; a reset groove is arranged on the arc-shaped sliding groove; the reset groove comprises a first reset groove and a second reset groove which are mutually independent; the first reset groove and the second reset groove are respectively matched with the pulley.
5. The integrated quick-fit type air pressure control type isolation area channel isolation device according to claim 3, wherein the first arc-shaped gate and the second arc-shaped gate are both quarter arc-shaped gates; first arc door with all be provided with first perspective window on the second arc door.
6. The integrated quick-assembling type air pressure control isolation region channel isolation device according to claim 3, wherein a first emergency brake button and a first ultraviolet lamp are further arranged on the inner side wall of the first framework, the first emergency brake button is arranged below the first ultraviolet lamp, and the first ultraviolet lamp is arranged at the top end of the inner side wall of the first framework; the bottom end of the outer side wall of the first framework is also provided with a first kick switch for controlling the first arc-shaped door to be opened; the first air shower and the second air shower are both provided with a plurality of first air holes for air circulation; the second air shower is also provided with a first spraying hole; the first spray hole is matched with the first output end of the atomizer.
7. The integrated quick-lap type air pressure control type isolation area channel isolation device according to claim 3, wherein a control panel in communication connection with the controller is arranged on the outer side wall of the first framework; still be provided with on the first skeleton inside wall with controller communication connection's emergency button.
8. The integrated quick-overlap type air pressure control type isolation area channel isolation device according to claim 1, wherein the retractable adjustment isolation panel comprises side panels arranged at two sides of the first isolation channel cabin and a top panel arranged at the top end of the first isolation channel cabin; the side panel comprises a first upright post, a second upright post and a side clamping plate arranged between the first upright post and the second upright post; one side of the first upright post, which is far away from the side clamping plate, is connected with the first isolation channel cabin; the bottom end of the side clamping plate is provided with a bottom kicking foot, and the top end of the side clamping plate is provided with a first closing-in port; the side clamping plates comprise first clamping plates and second clamping plates arranged at the top ends of the first clamping plates; an I-shaped connecting piece is arranged between the first clamping plate and the second clamping plate; the top end panel comprises a top clamping plate arranged at the top end of the first isolation channel cabin and a second closing-in arranged at the top end of the top clamping plate.
9. The integrated quick-overlap type air pressure control type isolation area channel isolation device according to claim 8, wherein the first upright column and the second upright column are identical in structure; one end of the first upright post is wide, and the other end of the first upright post is narrow; the narrow opening of the first upright column and the narrow opening of the second upright column are matched with the side clamping plates.
10. The integrated quick-lap type air pressure control type isolation area channel isolation device according to claim 9, wherein a first air bag for sealing is arranged on a wide opening of the first upright column, and the first air bag is connected with the electric fan; and a wide opening of the second upright post is provided with a second air bag for sealing, and the second air bag is connected with the electric fan.
CN202120481127.5U 2021-03-05 2021-03-05 Integrated quick-assembling type air pressure control isolation area channel isolation device Expired - Fee Related CN216318610U (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
CN202120481127.5U CN216318610U (en) 2021-03-05 2021-03-05 Integrated quick-assembling type air pressure control isolation area channel isolation device

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
CN202120481127.5U CN216318610U (en) 2021-03-05 2021-03-05 Integrated quick-assembling type air pressure control isolation area channel isolation device

Publications (1)

Publication Number Publication Date
CN216318610U true CN216318610U (en) 2022-04-19

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Application Number Title Priority Date Filing Date
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