CN111281710A - Portable negative pressure holographic disinfection isolation cabin - Google Patents

Abstract

The invention provides a portable negative pressure holographic disinfection isolation cabin which comprises a frame and a cabin body, wherein the cabin body is detachably arranged on the frame, an exhaust valve is arranged on the frame, an air inlet valve is arranged on the cabin body, and the air inlet valve and the exhaust valve are respectively communicated with the interior of the cabin body; the cabin body comprises a cabin wall, a cabin top and a delivery cylinder, the cabin wall comprises a first folding section, a second folding section, a third folding section and a fourth folding section which are connected end to end, and the frame is plugged at the bottom of the cabin wall; a first bending part is vertically arranged around the cabin top, the first bending part is respectively connected with the first bending section, the second bending section, the third bending section and the fourth bending section, and the cabin top covers the top of the cabin wall; the object conveying cylinder is arranged on the cabin wall and extends towards the interior of the cabin body, the object conveying cylinder at least comprises a cavity, two ends of the cavity are respectively communicated with the interior and the exterior of the cabin body, and first elastic sealing rings are arranged at two ends of the cavity. The invention is convenient to install and fold and can ensure that air leakage cannot be caused in the process of delivering objects.

Description

Portable negative pressure holographic disinfection isolation cabin

Technical Field

The invention relates to the field of isolation cabins, in particular to a portable negative-pressure holographic disinfection isolation cabin.

Background

At present, the epidemic situation of the novel coronavirus is serious, and if safe isolation is not carried out through an isolation device in the process that a plurality of suspected patients go to a hospital or confirmed patients are transferred to and transferred from a ward, the virus is easily infected to other people. A biosafety isolation device is disclosed in CN107930704A, specifically a flexible negative pressure operation cabin, an airtight transfer window and a plurality of gloves. The above-mentioned patent solution has the following disadvantages: 1. the cabin body of the flexible negative pressure operation cabin is formed by connecting a flexible film and a support frame, the number of support frame components is large, the installation is complex and tedious, and the consumed time is long; 2. the air-tight transfer window can prevent the direct communication between the environment in the flexible negative pressure operation cabin and the environment outside the cabin, but the bottom of the air-tight transfer window is provided with a bracket which can not be folded and still needs to occupy a larger space; 3. the gas tightness delivery window is provided with first door and the second that compresses tightly and compresses tightly the door for guarantee the whole leakproofness of gas tightness delivery window, but when opening the second door, the air in the cabin body has got into in the gas tightness delivery window, opens first door that compresses tightly this moment, can lead to a small amount of air in the cabin body to reveal outside the cabin body, the volume of gas tightness delivery window is big more, and the air leakage volume is big more.

Disclosure of Invention

The invention aims to provide a portable negative-pressure holographic disinfection isolation cabin which is convenient to install and fold and can ensure that air leakage cannot be caused in the object transferring process.

In order to achieve the purpose, the portable negative pressure holographic disinfection isolation cabin comprises a frame and a cabin body, wherein the cabin body is detachably arranged on the frame, an exhaust valve is arranged on the frame, an air inlet valve is arranged on the cabin body, and the air inlet valve and the exhaust valve are respectively communicated with the interior of the cabin body; the cabin body comprises a cabin wall, a cabin top and a delivery cylinder, the cabin wall comprises a first folding section, a second folding section, a third folding section and a fourth folding section, the first folding section, the second folding section, the third folding section and the fourth folding section are connected end to form a rectangular frame body with an upper opening and a lower opening, and the frame is blocked at the bottom of the cabin wall; a first bending part is vertically arranged on the periphery of the cabin top and is respectively connected with the first bending section, the second bending section, the third bending section and the fourth bending section, so that the cabin top covers the top of the cabin wall; the object conveying cylinder is arranged on the cabin wall and extends towards the interior of the cabin body, the object conveying cylinder at least comprises a cavity, two ends of the cavity are respectively communicated with the interior and the exterior of the cabin body, and first elastic sealing rings are arranged at two ends of the cavity.

According to the scheme, when needed, the first folding section, the second folding section, the third folding section and the fourth folding section are connected end to form a cabin wall, the cabin top is covered on the top of the cabin wall, then the unfolded cabin body is covered on a vehicle frame where suspected patients or confirmed patients lie, and the vehicle frame is used for plugging the bottom of the cabin wall, so that the sealing performance of the isolation cabin is guaranteed, the step of installing a support is omitted, and the operation is convenient and quick; when the cabin top and the cabin wall are not needed, the cabin top and the cabin wall can be detached and folded for storage, so that the space is saved; the cabin wall is arranged on the frame, and the frame is automatically plugged at the bottom of the cabin wall, so that the cabin wall, the cabin top and the frame form a sealed isolation cabin together, and the isolation cabin can move along with the frame; the object transferring cylinder is arranged to facilitate the transmission of objects from the outside of the cabin to the inside of the cabin or from the inside of the cabin to the outside of the cabin; the first elastic sealing rings are arranged at the two ends of the cavity respectively, so that the first elastic sealing rings are favorably clung to the arms when articles are transferred, the exchange of gas outside and in the cabin is avoided, and the gas in the cabin is particularly prevented from leaking to the gas outside the cabin.

The bulkhead is made of flexible sealing materials, a plurality of first partition plates are arranged on the bulkhead, the first partition plates are made of hard plastics, and the first partition plates are respectively positioned on the first folding section, the second folding section, the third folding section and the fourth folding section; the cabin top is made of flexible sealing materials, a second partition plate is arranged on the cabin top, and the second partition plate is made of hard plastics.

According to the scheme, the flexible sealing material is arranged, so that the cabin wall and the cabin roof can be conveniently folded and stored, and the weight of the cabin body is reduced; through setting up first baffle and second baffle, play the supporting role when the cabin body expandes, avoid the cabin body to collapse.

The further scheme is that a second bending part and a first connecting structure are arranged at the end part of the first folding section along the vertical direction, the first connecting structure is positioned on the second bending part, and the first folding section is connected with the fourth folding section through the first connecting structure; the bottom of the first folding section, the second folding section, the third folding section and the fourth folding section is provided with a third folding bending part and a second connecting structure along the horizontal direction, the second connecting structure is positioned on the third folding bending part, and the first folding section, the second folding section, the third folding section and the fourth folding section are respectively connected with the frame through the second connecting structure.

Still further, a third connecting structure is arranged on the first bending part, and the first bending part is respectively connected with the first folding section, the second folding section, the third folding section and the fourth folding section through the third connecting structure.

In a further aspect, the first connecting structure, the second connecting structure and the third connecting structure are all magic tapes.

By above-mentioned scheme visibly, through setting up the magic subsides, be favorable to making things convenient for the quick installation and the dismantlement of bulkhead and cabin roof, convenient operation, save time.

The further scheme is that the object transferring cylinder further comprises an installation sleeve and a connecting channel, the installation sleeve is arranged on the first partition plate, two ends of the connecting channel are communicated with the installation sleeve and the cavity respectively, and a first elastic sealing ring is connected between the connecting channel and the cavity.

According to the scheme, the installation sleeve and the connecting channel are arranged, so that the funnel-shaped channel is formed on the outer side wall of the cabin body, when objects are delivered from outside to inside, the objects enter the funnel-shaped channel firstly, and the objects are aligned to the center of the first elastic sealing ring to advance under the guiding action of the funnel-shaped channel, and the objects can penetrate through the first elastic sealing ring quickly and conveniently to enter the cavity.

The further proposal is that the cabin body is also provided with an operating glove and a transfusion hole, the operating glove is arranged in the cabin body and is positioned on one side of the object conveying cylinder, the transfusion hole is communicated with the interior of the cabin body, and the transfusion hole is provided with a second elastic sealing ring.

The further scheme is that a blow-off pipe, a flushing device and a collecting bag are arranged on the frame, the first end of the blow-off pipe is communicated with the interior of the cabin, the flushing device is arranged on the blow-off pipe, and the collecting bag is arranged at the second end of the blow-off pipe.

According to the scheme, the isolation cabin transmits food, drinking water and medicines through the delivery cylinder, and is convenient for a patient to defecate through the blow-off pipe, so that the patient can live in the isolation cabin for a long time, the isolation cabin plays a role of a small isolation ward, and the pressure of the isolation ward can be relieved during an epidemic situation; by arranging the flushing device, the flushing device can be controlled to automatically flush the buttocks of the patient after the patient defecates.

The portable negative pressure holographic disinfection isolation cabin further comprises a control unit, a negative pressure pump, an oxygen monitor and an alarm unit, wherein the control unit is respectively connected with the negative pressure pump, the oxygen monitor, the alarm unit, an air inlet valve and an exhaust valve, and the negative pressure pump is communicated with the exhaust valve and used for maintaining the negative pressure in the cabin.

According to the scheme, the air pressure in the isolation cabin is controlled by controlling the air draft of the negative pressure pump and the air inflow of the air inlet valve through the control unit, so that the negative pressure state in the cabin is maintained, and the gas in the cabin is prevented from leaking out from gaps except the exhaust valve; by arranging the alarm unit, when the oxygen monitor detects that the oxygen in the isolation chamber is insufficient, the control unit controls the alarm unit to give an alarm.

The portable negative-pressure holographic disinfection isolation cabin further comprises a disinfection system, the disinfection system is connected with the control unit, and the disinfection system is communicated with the exhaust valve; the sterilization system includes at least one of: a disinfectant sterilizing device, a gas sterilizing device, a light wave sterilizing device and a high-temperature sterilizing device.

As can be seen from the above, the control unit may initiate a suitable disinfection mode depending on the kind of virus or bacteria contained in the gas exhausted from the sequestration chamber.

Drawings

FIG. 1 is a block diagram of an embodiment of the present invention.

Fig. 2 is an exploded view of an embodiment of the present invention.

Fig. 3 is an enlarged view at a in fig. 2.

Fig. 4 is an exploded view of the enclosure according to an embodiment of the invention.

Fig. 5 is an internal structural view of the embodiment of the present invention.

Fig. 6 is an enlarged view at B in fig. 5.

Fig. 7 is a cross-sectional view of a delivery cartridge in accordance with an embodiment of the present invention.

The invention is further explained with reference to the drawings and the embodiments.

Detailed Description

Referring to fig. 1 to 6, the portable negative pressure holographic disinfection isolation cabin of the embodiment comprises a frame 1 and a cabin body 2, wherein the cabin body 2 is detachably arranged on the frame 1, and four casters with brake devices are arranged at the bottom of the frame 1. The cabin body 2 is provided with two air inlet valves 3, the air inlet valves 3 are positioned at the first end of the cabin body 2, and the air inlet valves 3 are communicated with the interior of the cabin body 2. Be equipped with two discharge valve 4 on the frame 1, discharge valve 4 is located the second of the cabin body 2 and holds, and the first end of discharge valve 4 upwards communicates with the cabin body 2 is inside, and the second end of discharge valve 4 runs through the roof of frame 1 downwards, and the one end of discharge valve 4 is connected with the negative pressure pump for the inside gas of the cabin body 2 of discharge and maintain the inside negative pressure of the cabin body 2, make the under-deck atmospheric pressure keep between 10kpa to 30kpa, and the under-deck gas flow is 30L to 100L.

The cabin body 2 comprises a cabin wall 21 and a cabin roof 22, the cabin wall 21 comprises a first folding section 212, a second folding section 213, a third folding section 214 and a fourth folding section 215, and the first folding section 212, the second folding section 213, the third folding section 214 and the fourth folding section 215 are connected end to form a rectangular frame body with an upper opening and a lower opening. The bulkhead 21 is made of a flexible sealing material, such as medical canvas, and a plurality of first partition plates 211 are arranged on the bulkhead 21, and the first partition plates 211 are transparent hard plates made of hard plastics. All be equipped with three first baffle 211 on first section 212 and the third section 214 of rolling over, all be equipped with a first baffle 211 on second section 213 and the fourth section 215 of rolling over for first section 212, second section 213 of rolling over, third section 214 of rolling over and fourth section 215 of rolling over enclose when closing formation rectangular frame body, and rectangular frame body can be in the state of erectting, can not collapse. On the whole bulkhead 21, a preset distance is reserved between every two adjacent first partition boards 211, so that the bulkhead 21 can be conveniently folded; when folding, the first folding section 212, the second folding section 213, the third folding section 214 and the fourth folding section 215 are unfolded to the same plane, and then are folded one by one according to the size of the first partition 211, so that the occupied space is reduced to the maximum extent.

The end of the first folding section 212 is provided with a second bending portion 216 and a first connecting structure along the vertical direction, the second bending portion 216 extends towards the inside of the cabin 2, the first connecting structure is located on the second bending portion 216, and the first folding section 212 is connected with the fourth folding section 215 through the first connecting structure.

The bottom of first section 212, second section 213, third section 214 and fourth section 215 all is equipped with third bending portion 217 and second connection structure along the horizontal direction, and third bending portion 217 extends to cabin body 2 is inside, and second connection structure is located third bending portion 217. The first folding section 212, the second folding section 213, the third folding section 214 and the fourth folding section 215 are respectively connected with the frame 1 through a second connecting structure.

The cabin roof 22 is made of flexible sealing materials, three second partition plates 222 are arranged on the cabin roof 22 in an array mode, the second partition plates 222 are transparent hard plates made of hard plastics, and a preset distance is reserved between every two adjacent second partition plates 222, so that the cabin roof 22 can be folded conveniently. The cabin roof 22 is provided with first bent portions 221 at the periphery thereof, the four first bent portions 221 each extending downward in the vertical direction, and the first bent portions 221 are located outside the cabin body 2 and adjacent to the outer surface of the cabin wall 21. The first bending portion 221 is provided with a third connecting structure, and the first bending portion 221 is connected with the first folding section 212, the second folding section 213, the third folding section 214 and the fourth folding section 215 through the third connecting structure.

First connection structure, second connection structure and third connection structure are the magic subsides, and the magic subsides include pin thread and box, and when using, pin thread and box set up respectively on the both sides lateral wall that needs to connect, and the concrete setting mode of magic subsides is common general knowledge, no longer gives unnecessary details here.

The middle part of the cabin body 2 is provided with a transfusion hole 6, the transfusion hole 6 is positioned at the upper side of the cabin body 2, and when a patient in the cabin needs transfusion treatment, a transfusion tube can pass through the transfusion hole 6 and enter the cabin. A second elastic sealing ring (not shown in the figure) is arranged on the transfusion hole 6 to ensure the sealing performance of the cabin body 2.

The middle part of the frame 1 is provided with a sewage discharge pipe 11 and a flushing device 12, the first end of the sewage discharge pipe 11 is communicated with the interior of the cabin body 2, and the second end of the sewage discharge pipe 11 is detachably connected with a collecting bag 13. The flushing device 12 comprises at least one water outlet which is arranged at the inner side of the sewage draining pipe 11 and sprays water towards the first end of the sewage draining pipe 11 for flushing the buttocks of the patient.

The embodiment also comprises a control unit, an oxygen monitor and an alarm unit, wherein the control unit is respectively connected with the negative pressure pump, the oxygen monitor, the alarm unit, the air inlet valve 3 and the exhaust valve 4. The oxygen monitor is used for detecting the oxygen concentration in the cabin body 2 and feeding back the oxygen concentration to the control unit, when the oxygen concentration in the cabin body 2 is lower than a preset threshold value, the control unit controls the alarm unit to give an alarm, and simultaneously increases the air inflow of the air inlet valve 3 to ensure that the interior of the cabin body 2 has sufficient oxygen.

The embodiment further comprises a disinfection system, wherein the negative air pump introduces the air discharged from the cabin body 2 into the disinfection system, so that the air discharged from the cabin body 2 is disinfected conveniently. The sterilization system includes at least one of: the disinfecting liquid disinfecting device, the gas disinfecting device, the light wave disinfecting device and the high temperature disinfecting device can be seen from the patent application of CN202010170273.6 for more detailed description, and are not repeated herein. The control unit of this embodiment is connected to the disinfection system, and is configured to control the disinfection system to start one or more corresponding disinfection devices according to the types of viruses and bacteria contained in the cabin 2, so as to perform targeted disinfection and sterilization.

Referring to fig. 7 and fig. 5, a delivery cylinder 23 and two operation gloves 24 are arranged on the inner side of the cabin 2, and both the delivery cylinder 23 and the operation gloves 24 are made of flexible materials. The object transferring cylinder 23 and the operation gloves 24 are respectively arranged on different first partition boards 211 on the same side of the cabin body 2 and are respectively connected with the first partition boards 211 in a sealing manner, and the object transferring cylinder 23 and the operation gloves 24 both extend towards the interior of the cabin body 2. Specifically, the object transferring cylinder 23 is located at the second end of the cabin 2, the two operating gloves 24 and the object transferring cylinder 23 are arranged in the direction of the second end of the cabin 2, and both the two operating gloves 24 are right-handed. The head of the patient faces the second end of the cabin body 2, and the inner side of the second end of the cabin body 2 is also provided with a calling and intercommunication device 5, so that the patient can conveniently talk with medical staff.

The delivery barrel 23 comprises a mounting sleeve 231, a connecting channel 232 and two cavities 233 which are connected in sequence. The mounting sleeve 231 is connected with the first partition 211, two ends of the connecting channel 232 are respectively communicated with the mounting sleeve 231 and the two cavities 233, and the end of the cavity 233 is communicated with the interior of the cabin 2. The two ends of the cavity 233 are both provided with a first elastic sealing ring 234, specifically, the first elastic sealing ring 234 is arranged between the connecting channel 232 and the first cavity 233, the first elastic sealing ring 234 is arranged at the end of the second cavity 233, and the first elastic sealing ring 234 is arranged between the first cavity 233 and the second cavity 233. In a normal state, the first elastic sealing ring 234 is in a contracted state, so that the two cavities 233 are not communicated with each other. Each first elastic sealing ring 234 can be opened step by step during the delivery. Because the first elastic sealing ring 234 has elasticity, when an object or a hand passes through the first elastic sealing ring 234, the first elastic sealing ring 234 is automatically attached to the surface of the object or the hand, so that air is prevented from entering the cavity 233, and especially, when a patient passes the object, the air leakage in the cabin can be avoided. When the patient transfers the article to the outside of the cabin, the article can be held by hand to pass through the first elastic sealing ring 234, the inner cavity 233 and the first elastic sealing ring 234 in sequence, and the article is placed in the outer cavity 233, and then the article is withdrawn from the delivery cylinder 23 by hand. Then, the hand of the medical staff passes through the connecting channel 232 and the first elastic sealing ring 234 to enter the cavity 233 at the outer side to take out the product, and the delivery operation from the cabin to the outside is completed. When the medical staff transfers the articles to the cabin, the hand-held articles sequentially pass through the connecting channel 232, the first elastic sealing ring 234, the outer cavity 233 and the first elastic sealing ring 234, are placed in the inner cavity 233, and then are withdrawn from the delivery cylinder 23 by the hand. Then, the hand of the patient can enter the inner cavity 233 through the first elastic sealing ring 234 to take out the object, and the object is delivered from the outside to the inside of the cabin. When the first elastic sealing ring 234 is in a contracted state, the connecting passage 232 is in a funnel shape with a large end and a small end. The medical staff can pass through the first elastic sealing ring 234 with one hand only by putting articles or hands into the connecting channel 232 and moving the articles or hands forward, without the need of additionally assisting the action of opening the first elastic sealing ring 234. By arranging the two cavities 233 and arranging the first elastic sealing ring 234 between the two cavities 233, even if a small amount of gas enters the cavity 233 when passing through the first elastic sealing ring 234, the leaked gas is difficult to pass through the other cavity 233 under the sealing action of the other first elastic sealing ring 234, which is beneficial to further improving the sealing performance when transmitting articles.

Claims (10)

1. Holographic disinfection isolation compartment of portable negative pressure, including the frame and the cabin body, cabin body detachably sets up on the frame, its characterized in that:

an exhaust valve is arranged on the frame, an air inlet valve is arranged on the cabin body, and the air inlet valve and the exhaust valve are respectively communicated with the interior of the cabin body;

the cabin body comprises:

the vehicle frame comprises a bulkhead, wherein the bulkhead comprises a first folding section, a second folding section, a third folding section and a fourth folding section, the first folding section, the second folding section, the third folding section and the fourth folding section are connected end to form a rectangular frame body which is open up and down, and the vehicle frame is sealed at the bottom of the bulkhead;

the cabin top is vertically provided with a first bending part at the periphery, and the first bending part is respectively connected with the first bending section, the second bending section, the third bending section and the fourth bending section, so that the cabin top covers the top of the cabin wall;

the delivery cylinder is arranged on the bulkhead and extends towards the interior of the cabin body, the delivery cylinder at least comprises a cavity, two ends of the cavity are respectively communicated with the interior and the exterior of the cabin body, and first elastic sealing rings are arranged at two ends of the cavity.

2. The portable negative-pressure holographic disinfection isolation capsule of claim 1, wherein:

the bulkhead is made of flexible sealing materials, a plurality of first partition plates are arranged on the bulkhead, the first partition plates are made of hard plastics, and the first partition plates are respectively positioned on the first folding section, the second folding section, the third folding section and the fourth folding section;

the cabin roof is made of flexible sealing materials, a second partition plate is arranged on the cabin roof, and the second partition plate is made of hard plastics.

3. The holographic disinfection isolation capsule of claim 2, wherein:

a second bending part and a first connecting structure are arranged at the end part of the first folding section along the vertical direction, the first connecting structure is positioned on the second bending part, and the first folding section is connected with the fourth folding section through the first connecting structure;

the first section of folding, the second section of folding, the third section of folding with the bottom of fourth section of folding all is equipped with third bending portion and second connection structure along the horizontal direction, second connection structure is located on the third bending portion, the first section of folding, the second section of folding, the third section of folding with the fourth section of folding passes through respectively the second connection structure with connected to the frame.

4. The portable negative-pressure holographic disinfection isolation capsule of claim 3, wherein:

the first bending portion is provided with a third connecting structure, and the first bending portion is connected with the first bending section, the second bending section, the third bending section and the fourth bending section respectively through the third connecting structure.

5. The portable negative-pressure holographic disinfection isolation capsule of claim 4, wherein:

the first connecting structure, the second connecting structure and the third connecting structure are all magic tapes.

6. The portable negative-pressure holographic disinfection isolation capsule of any one of claims 2 to 5, wherein:

the delivery cylinder further comprises an installation sleeve and a connecting channel, the installation sleeve is arranged on the first partition plate, two ends of the connecting channel are respectively communicated with the installation sleeve and the cavity, and the first elastic sealing ring is connected between the connecting channel and the cavity.

7. The portable negative-pressure holographic disinfection isolation capsule of any one of claims 1 to 5, wherein:

still be equipped with operation gloves and infusion hole on the cabin body, the operation gloves sets up the cabin is internal and is located carry thing section of thick bamboo one side, the infusion hole with the inside intercommunication of the cabin body, be equipped with second elastic sealing ring on the infusion hole.

8. The portable negative-pressure holographic disinfection isolation capsule of any one of claims 1 to 5, wherein:

the frame is provided with a drain pipe, a flushing device and a collecting bag, the first end of the drain pipe is communicated with the interior of the cabin, the flushing device is arranged on the drain pipe, and the collecting bag is arranged at the second end of the drain pipe.

9. The portable negative-pressure holographic disinfection isolation capsule of any one of claims 1 to 5, wherein:

the portable negative-pressure holographic disinfection isolation cabin further comprises a control unit, a negative pressure pump, an oxygen monitor and an alarm unit, wherein the control unit is respectively connected with the negative pressure pump, the oxygen monitor, the alarm unit, the air inlet valve and the exhaust valve;

the negative pressure pump is communicated with the exhaust valve and is used for maintaining the negative pressure in the cabin.

10. The portable negative-pressure holographic disinfection isolation capsule of claim 9, wherein:

the portable negative-pressure holographic disinfection isolation cabin further comprises a disinfection system, the disinfection system is connected with the control unit, and the disinfection system is communicated with the exhaust valve;

the sterilization system includes at least one of: a disinfectant sterilizing device, a gas sterilizing device, a light wave sterilizing device and a high-temperature sterilizing device.

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