CN212457293U

CN212457293U - Detachable multipurpose outpatient service cabin

Info

Publication number: CN212457293U
Application number: CN202020489665.4U
Authority: CN
Inventors: 宋争放
Original assignee: Individual
Current assignee: Individual
Priority date: 2020-04-07
Filing date: 2020-04-07
Publication date: 2021-02-02
Anticipated expiration: 2030-04-07

Abstract

The utility model relates to a can load and unload multipurpose outpatient service cabin belongs to medical facility technical field. The utility model discloses an internal portion of cabin divide into A cabin and B cabin, is airtight space, and the A cabin supplies medical personnel to use, and the B cabin supplies the patient to use, has avoided medical personnel direct and patient contact, can implement better protection to medical personnel. In addition, perfect anti-virus propagation facilities have been configured respectively to A cabin and B cabin, including arranging high-efficient air purifier system (HEPA) in A cabin, N95 filter frame, arrange the ultraviolet ray disinfection lamp in B cabin, spray degassing unit, take ultraviolet tube's exhaust passage, not only can effectively avoid medical personnel's infection, can also effectively reduce patient's cross infection simultaneously. The cabin body is formed by assembling modular sections, is convenient to use, can be disassembled and moved, and can be placed indoors or outdoors. The utility model has multiple purposes, and can be used for diagnosis and treatment, transportation and the like of infection sources besides being used as a heating outpatient service.

Description

Detachable multipurpose outpatient service cabin

Technical Field

The utility model relates to a can load and unload multipurpose outpatient service cabin belongs to medical facility technical field.

Background

The fever clinic is a special clinic set up in various hospitals in recent years, is also a first-diagnosis channel for infected and fever patients, is suitable for the patients with fever and infection symptoms, and has strong infectivity due to respiratory diseases such as pneumonia caused by influenza and coronavirus in autumn, winter and spring. The transmission routes of respiratory diseases include contact, spray, air and aerosol. Because the diameter of the virus is very small, for example, the diameter of the beta novel coronavirus is 60-140 nm, when the virus is transmitted by air, aerosol and other ways, the common protection effect of medical staff cannot be achieved, the medical staff cannot completely protect the virus even wearing an N95 mask, and in addition, patients do not wear the mask usually, so that the medical staff are in high exposure in a fever clinic and the infection probability of the medical staff is high.

SUMMERY OF THE UTILITY MODEL

The utility model discloses a first technical problem that will solve is: the clinic cabin is provided, and better protection can be implemented for medical staff.

The utility model provides a technical scheme that its technical problem adopted is: the clinic cabin comprises a cabin body with a closed structure, wherein a partition plate is vertically arranged in the cabin body and divides the cabin body into a cabin A and a cabin B, the cabin A is provided with a first switch door, and the cabin B is provided with a second switch door; a medical care working platform is arranged in the A cabin at the position of the clapboard.

Further, the method comprises the following steps: the partition board is made of transparent material; two holes are formed in the corresponding position of the medical care working platform through the partition plate, the two holes are respectively in sealing connection with the protective sleeves, the protective sleeves comprise connecting sleeves and gloves which are connected into a whole, the other ends of the connecting sleeves are used for connecting holes in the partition plate, the holes in the partition plate and the connecting sleeves are configured into structures which can be used for medical care personnel to pass through, and the gloves are located in a B cabin.

Further, the method comprises the following steps: the corresponding position of working platform is provided with the disease diagnosis district in medical care to B cabin inside, and infrared clinical thermometer and the shot-light that is used for examining the laryngopharynx are installed to the disease diagnosis district.

Further, the method comprises the following steps: the first switch door is arranged on one side of the cabin A far away from the partition plate; the second switch door is arranged on one side of the cabin B far away from the partition plate.

Further, the method comprises the following steps: the side wall of the cabin A is provided with an air inlet and an air outlet, and the air inlet and the air outlet are provided with a high efficiency air purifier (HEPA) system.

Further, the method comprises the following steps: the side wall of the A cabin is provided with a vent, an N95 filter frame is arranged on the vent, and an N95 filter frame is arranged in a detachable connection mode.

Further, the method comprises the following steps: the air vent of the A cabin is provided with a sliding groove, and the N95 filter frame is inserted in the sliding groove in a sliding installation mode.

Further, the method comprises the following steps: the B-compartment is provided with one or more of the following devices: ultraviolet ray disinfection lamp, spray degassing unit, device of calling out numbers.

Further, the method comprises the following steps: the side wall of the cabin B is provided with an air inlet and an air outlet, the air outlet of the cabin B is provided with a cylindrical exhaust passage, the exhaust passage is provided with an exhaust fan, and ultraviolet lamp tubes which are distributed spirally are arranged in the exhaust passage along the length direction. Preferably, the exhaust passage is provided with a circular bend.

Further, the method comprises the following steps: the cabin body is formed by assembling modular sections; the bottom of the cabin body is provided with a movable wheel which is provided with a locking device.

The utility model has the advantages that: the A cabin and the B cabin are independent closed spaces, the A cabin is used by medical workers, the B cabin is used by patients, the medical workers are prevented from directly contacting the patients, and better protection can be implemented for the medical workers. In addition, perfect anti-virus propagation facilities have been configured respectively to A cabin and B cabin, including arranging high-efficient air purifier system (HEPA) in A cabin, N95 filter frame, arrange the ultraviolet ray disinfection lamp in B cabin, spray degassing unit, take ultraviolet tube's exhaust passage, not only can effectively avoid medical personnel's infection, can also effectively reduce patient's cross infection simultaneously. The cabin body is formed by assembling modular sections, is convenient to use, can be disassembled and moved, and can be placed indoors or outdoors. The utility model has multiple purposes, and can be used for diagnosis and treatment, transportation and the like of infection sources besides being used as a heating outpatient service.

Drawings

Fig. 1 is a schematic plan view of the present invention;

fig. 2 is a schematic elevation structure of the present invention;

fig. 3 is a schematic view of the installation structure of the N95 filter frame of the present invention;

FIG. 4 is a schematic view of the ventilation structure of the air outlet of the cabin B of the present invention;

FIG. 5 is a schematic view of the outer shape of the exhaust passage at the air outlet of the cabin B of the present invention;

labeled as: 100-partition board, 200-A cabin, 201-first switch door, 202-medical care working platform, 203-protective cover, 204-sliding groove, 205-N95 filter frame, 206-N95 filter membrane, 300-B cabin, 301-second switch door, 302-ultraviolet disinfection lamp, 303-exhaust channel and 304-ultraviolet lamp tube.

Detailed Description

The present invention will be further explained with reference to the drawings and the embodiments.

As shown in fig. 1 to 5, the utility model comprises a cabin body with a closed structure, wherein a vertically arranged partition plate 100 is arranged in the cabin body, the partition plate 100 divides the cabin body into a cabin a 200 and a cabin B300, the cabin a 200 is provided with a first switch door 201, and the cabin B300 is provided with a second switch door 301; the interior of the A-compartment 200 is provided with a medical work platform 202 at the location of the partition 100. Cabin A200 and B300 are independent closed spaces, cabin A200 supplies medical personnel to use, and cabin B300 supplies the patient to use, has avoided medical personnel direct and patient contact, can implement better protection to medical personnel. In practice, the medical platform 202 is typically equipped with desks and chairs, computers (wireless) and a control panel on which all the corresponding facilities of the a-compartment 200 and the B-compartment 300 can be operated. In addition, the medical care platform 202 may also consider introducing an intelligent control system, and through intelligent software, obtain a preliminary diagnosis according to medical history, symptoms, signs and necessary detections, and track, report and search close contacts on suspected cases with transmissibility.

For convenience of use, the partition 100 is preferably made of a transparent material, and may be made of a transparent material as a whole, or may be made of a transparent material only in the working area; for ease of assembly, the baffle 100 is typically formed entirely of a transparent material. In addition, in order to facilitate the operation and examination of the medical staff, two holes are opened on the partition board 100 at the corresponding position of the medical work platform 202, the two holes are respectively connected with the protective sleeves 203 in a sealing manner, the protective sleeves 203 comprise connecting sleeves and gloves which are connected into an integrated structure, the other ends of the connecting sleeves are used for connecting the holes on the partition board 100, and the holes on the partition board 100 and the connecting sleeves are configured into a structure which can be passed by the arms of the medical staff, and the gloves are positioned on the side of the B compartment 300. By using the protective sleeve 203, the examination of the patient can be conveniently realized, such as the operation of a throat swab, and the direct contact with the patient can be avoided.

For the convenience of detection, a patient diagnosis area is arranged in the B chamber 300 at the corresponding position of the medical care working platform 202, and an infrared thermometer and a spotlight for examining the throat are arranged in the patient diagnosis area.

The first switch door 201 is arranged on one side of the A cabin 200 far away from the partition board 100; the second switch door 301 sets up in the B cabin 300 and keeps away from one side of baffle 100, is equivalent to like this with two switch door settings in the both ends position of the cabin body, and first switch door 201 supplies medical personnel to come in and go out, and second switch door 301 supplies the patient to come in and go out, can avoid medical personnel and patient to produce the contact to the at utmost. The first switch door 201 and the second switch door 301 can be manual doors or automatic doors, and preferably automatic doors are adopted, so that cross infection is avoided.

For the ventilation of the a-compartment 200, it is preferred to implement the following two ways: first, the side wall of the a-compartment 200 is provided with an air inlet and an air outlet, and a high efficiency air purifier system (HEPA) is installed at the air inlet and the air outlet thereof. The high efficiency air purifier (HEPA) system has 99.97% of filtering efficiency on micro-organisms and other particles with the diameter of 0.3 micron, and the HEPA filtering system jointly uses a high-energy ultraviolet light module to kill viruses and live bacteria in a filtering medium. Secondly, the side wall of the a-compartment 200 is provided with a ventilation opening, and an N95 filter frame 205 is arranged at the ventilation opening. The N95 filter frame 205 is a frame with an N95 filter 206, and the frame may be made of aluminum alloy or rubber. The N95 filter frame 205 should be replaced periodically, and the N95 filter frame 205 is detachably connected, such as by screwing, fastening a slot, etc. For convenient replacement, the utility model discloses a preferred embodiment does: the ventilation opening of the A-compartment 200 is provided with a sliding groove 204, and the N95 filter frame 205 is inserted in the sliding groove 204 in a sliding installation mode. The sliding groove 204 is preferably implemented by a U-shaped frame, two sides of the U-shaped frame are used for arranging the sliding groove 204, the bottom edge of the U-shaped frame is used for limiting, and the N95 filter frame 205 can be inserted into or taken out from the opening side of the U-shaped frame. The U-shaped frame can be made of aluminum alloy or rubber.

In addition, the B-compartment 300 is configured with one or more of the following: ultraviolet ray disinfection lamp 302, spray degassing unit, device of calling out numbers. Preferably, all of the devices are configured. The ultraviolet disinfection lamp 302 and the spray disinfection device can effectively reduce the cross infection of patients. The number calling device can conveniently realize the ordered diagnosis of the patient. The ultraviolet disinfection lamp 302 is preferably arranged on the side wall of the cabin B300, and can be integrally arranged on one side wall; the spraying and sterilizing device and the number calling device are arranged at proper positions of the B-cabin 300.

The side wall of the chamber B300 is provided with an air inlet and an air outlet, the air outlet of the chamber B300 is provided with a cylindrical exhaust channel 303, the exhaust channel 303 is provided with an exhaust fan, and ultraviolet lamp tubes 304 which are spirally distributed are arranged in the exhaust channel 303 along the length direction, so that an ultraviolet exhaust disinfection channel is formed, and viruses are effectively killed. As shown in fig. 5, the exhaust channel 303 may be further provided with a circular bent portion, so that the ultraviolet irradiation length (i.e., time) can be increased, and a better virus killing effect can be achieved. The total length of the ultraviolet exhaust disinfection channel is designed to be 1.2-1.5 meters. The air inlet of the B compartment 300 may be arranged at a suitable position, and may be generally designed at the opposite side of the air outlet.

The cabin body is formed by assembling modularized sectional materials, is convenient to use, can be disassembled and moved, and can be placed indoors or outdoors; the utility model has multiple purposes, and can be used for diagnosis and treatment, transportation and the like of infection sources besides being used as a heating outpatient service.

In order to facilitate the overall movement of the assembled cabin, the bottom of the cabin is provided with moving wheels 400, and the moving wheels 400 are provided with locking means.

When in use, the cabin body is preferably a cuboid structure, the size of the cabin body in the utility model is 3-4 meters (long) x 2 meters (wide) x 2-2.5 meters (high), and the inner part of the A cabin 200 and the B cabin 300; the cabin A200 is 2-2.5 meters long, and the cabin B300 is 1.5 meters long. The cabin body is made of aluminum alloy and organic plastic, is in modular design, avoids gaps, and uses the aluminum alloy exoskeleton to support the organic plastic inside.

Claims

1. The outpatient service room is characterized in that: the cabin comprises a cabin body with a closed structure, wherein a partition plate (100) is vertically arranged in the cabin body, the cabin body is divided into an A cabin (200) and a B cabin (300) by the partition plate (100), the A cabin (200) is provided with a first switch door (201), and the B cabin (300) is provided with a second switch door (301); a medical care working platform (202) is arranged in the A cabin (200) at the position of the clapboard (100).

2. The outpatient cabin of claim 1, wherein: the clapboard (100) is made of transparent material; two holes are formed in the corresponding position of the medical care working platform (202) of the partition board (100), the two holes are respectively connected with the protective sleeves (203) in a sealing mode, each protective sleeve (203) comprises a connecting sleeve and a glove which are connected into an integrated structure, the other end of each connecting sleeve is used for connecting the holes in the partition board (100), the holes in the partition board (100) and the connecting sleeves are configured into structures through which arms of medical care personnel can penetrate, and the gloves are located in the B cabin (300).

3. The outpatient cabin of claim 1, wherein: a patient diagnosis area is arranged in the B cabin (300) at a position corresponding to the medical care working platform (202), and an infrared thermometer and a spotlight for examining the throat are arranged in the patient diagnosis area.

4. The outpatient cabin of claim 1, wherein: the first switch door (201) is arranged on one side of the cabin A (200) far away from the partition board (100); the second switch door (301) is arranged on one side of the B cabin (300) far away from the partition board (100).

5. The outpatient cabin of claim 1, wherein: the ventilation structure of the A cabin (200) is as follows: the side wall of the cabin A (200) is provided with an air inlet and an air outlet, and the air inlet and the air outlet are provided with high-efficiency air purifier systems;

the ventilation structure of the A cabin (200) is either: the side wall of the cabin A (200) is provided with a vent, an N95 filter frame (205) is arranged on the vent, and an N95 filter frame (205) is arranged in a detachable connection mode;

the ventilation structure of the A cabin (200) or the combination of the two modes.

6. The outpatient cabin of claim 5, wherein: the ventilation opening of the A cabin (200) is provided with a sliding groove (204), and the N95 filter frame (205) is inserted in the sliding groove (204) in a sliding installation mode.

7. The outpatient cabin of claim 1, wherein: the B-compartment (300) is configured with one or more of the following: ultraviolet ray disinfection lamp (302), spray degassing unit, device of calling out numbers.

8. The outpatient cabin of claim 1, wherein: the side wall of the cabin B (300) is provided with an air inlet and an air outlet, the air outlet of the cabin B (300) is provided with a cylindrical exhaust channel (303), the exhaust channel (303) is provided with an exhaust fan, and ultraviolet lamp tubes (304) which are distributed spirally are arranged in the exhaust channel (303) along the length direction.

9. The outpatient cabin of claim 8, wherein: the exhaust passage (303) is provided with a circular bend.

10. The clinic compartment of any one of claims 1 to 9, wherein: the cabin body is formed by assembling modular sections; the bottom of the cabin body is provided with a moving wheel (400), and the moving wheel (400) is provided with a locking device.