CN217067134U - Protection equipment is degassing unit in batches with inflatable tent disinfection cabin - Google Patents

Abstract

The utility model discloses a protection equipment is degassing unit in batches with inflatable tent disinfection cabin is equipped with chlorine dioxide generating device and inflation pump in the front side machine case, is equipped with inflatable tent disinfection cabin in the rear side machine case, and the inflation pump passes through the gas column inflation inlet on the backplate of front side machine case to be connected with the gas filling/deflation port in tent disinfection cabin. The outlet of the reaction cavity ventilating duct of the chlorine dioxide generating device is connected with the air inlet of the tent body of the tent disinfection cabin. The front-side case and the rear-side case are integrally designed, miniaturization and compact integration of all functional modules are achieved, the main body is folded into an integral case group, and transportation and rapid deployment are facilitated. After the tent is unfolded, the gas chlorine dioxide generating device is connected with the flexible tent disinfection cabin, so that the field circulation preparation of the gas chlorine dioxide is realized, and the medical protective clothing, goggles, protective head covers and the like in the tent disinfection cabin are disinfected and sterilized in batches, and the safe and repeated utilization is realized. Meanwhile, an adsorption device and a fresh air module are arranged in the device, and functions of adsorption, safe emission and the like are achieved.

Description

Protection equipment is degassing unit in batches with inflatable tent disinfection cabin

Technical Field

The utility model relates to a disinfecting equipment technical field especially relates to a protection equipment is degassing unit in batches with inflatable tent disinfection cabin.

Background

The existing chlorine dioxide gas disinfection equipment in the market is only independent disinfection equipment, does not have integrated design, does not have an integrated disinfection cabin, can not independently complete the disinfection working condition, and needs to be matched with a specific disinfection cabin for use. In addition, the existing gaseous chlorine dioxide disinfection equipment in the market is rarely provided with single-machine adsorption equipment, is not provided with a gaseous chlorine dioxide monitoring device at the same time, is not provided with an integrated design, and cannot realize automatic adsorption control and concentration monitoring of the gaseous chlorine dioxide.

Secondly, large-scale disinfecting equipment in the market can only be placed at a fixed position or place for disinfection, does not have the capability of overall rapid deployment and collection of the device, does not have the functions of chlorine dioxide fumigation, disinfection and adsorption, and can be provided with a rapid deployment and collection disinfection cabin to realize integrated disinfecting equipment capable of achieving batch disinfection.

Therefore, it is desirable to provide a device for disinfecting personal protective equipment in batches with an inflatable tent disinfection cabin, which can realize the disinfection of personal protective equipment in batches that can be rapidly deployed on site.

SUMMERY OF THE UTILITY MODEL

In view of this, the utility model aims at providing a protection device is degassing unit in batches with inflatable tent disinfection cabin is connected gaseous chlorine dioxide generating device with the flexible tent disinfection cabin that can fill the gassing, realizes that field cycle preparation gaseous chlorine dioxide realizes safe reuse to the protection device batch disinfection and sterilization in tent disinfection cabin.

In order to solve the technical problem, the utility model adopts the following technical proposal:

the utility model provides a protection equipment is degassing unit in batches with inflatable tent disinfection cabin, includes front side machine case and rear side machine case, be equipped with chlorine dioxide generating device and inflation pump in the front side machine case, the rear side machine incasement is equipped with inflatable tent disinfection cabin, be equipped with on the tent disinfection cabin and fill/vent port and cabin body air intake, be equipped with the gas column inflation inlet on the backplate of front side machine case, the inflation pump passes through the gas column inflation inlet and is connected with the inflation/vent port in tent disinfection cabin.

Chlorine dioxide generating device includes reactant A holding vessel, reactant B holding vessel, reactant N holding vessel, reaction chamber, peristaltic pump group and reaction fan, the peristaltic pump group includes the reactant peristaltic pump, the input of reactant peristaltic pump is connected with reactant A holding vessel, reactant B holding vessel and reactant N holding vessel respectively, the output and the reaction chamber of reactant peristaltic pump are connected, the inlet connection of reaction fan and reaction chamber air pipe, the cabin body air intake connection of reaction chamber air pipe's export and tent disinfection cabin. When the chlorine dioxide generator is used for preparing chlorine dioxide gas for disinfection, firstly, the reactant A, the reactant B and the reactant N are respectively added into a reactant A storage tank, a reactant B storage tank and a reactant N storage tank through rubber hoses and valves. The reactant peristaltic pump sequentially extracts the reactant B and the reactant A from the reactant B storage tank and the reactant A storage tank and injects the reactant B and the reactant A into the reaction cavity, and the reactant A and the reactant B react to generate gaseous chlorine dioxide gas. The reaction fan enters air into the reaction cavity from the inlet of the ventilation pipeline of the reaction cavity and takes out gaseous chlorine dioxide gas from the outlet of the ventilation pipeline to the tent disinfection cabin. After the reaction is finished, the reactant peristaltic pump pumps the reactant N from the reactant N storage tank and injects the reactant N into the reaction cavity, and neutralizes the liquid obtained after the reaction of the reactant A and the reactant B.

Preferably, the front-side case is further internally provided with an adsorption device, the adsorption device comprises an adsorption fan and an adsorption module, the tent disinfection cabin is provided with a cabin air outlet, the input end of the adsorption fan is connected with the cabin air outlet, and the output end of the adsorption fan is connected with the adsorption module. After the gas chlorine dioxide is fumigated, the internal circulation mode of the adsorption fan is started, the gas in the tent disinfection cabin circulates through the activated carbon filter in the adsorption module, the chlorine dioxide gas in the tent disinfection cabin is gradually absorbed, and the adsorption fan is started to be switched to the external discharge mode when the safe concentration capable of being discharged is reached through detecting the content of the chlorine dioxide in real time.

Preferably, a fresh air module is further arranged in the front-side case, the fresh air module comprises a fresh air fan, and the fresh air fan is connected with an air inlet of the cabin body. When the adsorption fan is switched to the outward-discharging mode, the fresh air fan is started simultaneously, fresh air is sent into the tent disinfection cabin, and the outward discharge of gas replacement in the tent disinfection cabin is realized.

Preferably, the chlorine dioxide generating device further comprises a waste liquid storage tank, the peristaltic pump group further comprises a waste liquid peristaltic pump, the input end of the waste liquid peristaltic pump is connected with the reaction cavity, and the output end of the waste liquid peristaltic pump is connected with the waste liquid storage tank. The reactant N neutralizes the liquid generated after the reactant A and the reactant B react to generate waste liquid. Then the waste liquid is pumped into a waste liquid cavity in the waste liquid storage tank by a waste liquid peristaltic pump of the peristaltic pump set. Or starting the next working cycle of gas chlorine dioxide generation.

Preferably, a diaphragm pump and a concentration sensor are further arranged in the front-side case, the input end of the diaphragm pump is connected with the tent disinfection cabin, the output end of the diaphragm pump is connected with the input end of the concentration sensor, and the output end of the concentration sensor is connected with the tent disinfection cabin. The diaphragm pump is used for conveying a collected gas sample to the concentration sensor for testing the concentration of chlorine dioxide after sampling in the tent disinfection cabin, when the concentration tested by the concentration sensor reaches a certain value, the cycle of preparing gaseous chlorine dioxide is finished, fumigation is started, and disinfection equipment needing disinfection treatment is placed in the tent disinfection cabin for fumigation.

Preferably, be equipped with vortex fan power and air column pressure switch on the backplate of front side machine case, be equipped with vortex fan and pressure differential transmitter in the tent disinfection cabin, vortex fan power and vortex fan connection control vortex fan's work, the air column pressure in the air column pressure switch monitoring tent disinfection cabin, pressure differential transmitter shows the inside and outside pressure differential of tent disinfection cabin. The vortex fan has the function that after the chlorine dioxide gas starts to react, the power supply of the vortex fan is turned on, and then the vortex fan starts to work, so that the chlorine dioxide in the tent disinfection cabin can be rapidly and uniformly distributed. Gas column pressure in the gas column pressure switch monitoring tent disinfection under-deck, pressure differential transmitter can the inside and outside pressure value of real-time supervision tent disinfection under-deck, if the pressure value is not at safety range in the use, can start the air pump of aerifing and mend the gassing.

Preferably, an LED lighting lamp power supply and a temperature and humidity sensor are arranged on a back plate of the front side case, the LED lighting lamp power supply is connected with an LED lighting lamp in the tent disinfection cabin to provide power supply, and the temperature and humidity sensor monitors a temperature value and a humidity value in the tent disinfection cabin. The LED illuminating lamp is used for illuminating after the tent disinfection cabin is inflated, and the temperature and humidity sensor is used for monitoring the temperature value and the humidity value in the tent disinfection cabin.

Preferably, an air pump reversing valve is arranged on the inflation air pump, and the air pump reversing valve controls the air flow direction of the inflation air pump to realize inflation and deflation of the tent disinfection cabin. The gas change-over valve is switched to control the air flow direction of the inflation air pump to realize inflation and deflation of the tent disinfection cabin, and when the protective equipment needs to be disinfected in batches, the inflation mode is switched to inflate and open the tent disinfection cabin; when the disinfection work is finished, the gas release mode is switched to release the gas in the tent disinfection cabin, and the tent disinfection cabin is folded into the rear side chassis.

Preferably, a tightening belt and a sliding bottom plate are arranged in the rear case, the deflated tent disinfection cabin is stored on the sliding bottom plate, and the tightening belt tightens the deflated tent disinfection cabin and stores the deflated tent disinfection cabin in the rear case. The tent disinfection cabin is fixedly connected with the front side case, and is in a connection state with the front side case in the unfolding, folding and using processes. The specific method comprises the following steps: the back plate of the front side case is provided with an interface with the tent disinfection cabin, the interface is provided with a disinfection process interface, the periphery of the interface is provided with a flange, and the upper and lower flanged flexible flanges on the side wall of the tent disinfection cabin are tightly pressed and clamped on the interface through the peripheral flange.

Preferably, an operation panel and an electrical control module are arranged on the front side chassis, a touch screen is arranged on the operation panel, and the touch screen is electrically connected with the electrical control module. Operating personnel accessible control panel and touch-sensitive screen carry out the instruction operation, control the device through electric control module, carry out each item disinfection work.

The utility model has the advantages as follows: the utility model relates to a protection equipment disinfection device in batches with inflatable tent disinfection cabin is owing to adopted above technical scheme, because gaseous chlorine dioxide's broad-spectrum, safety, efficient sterilization characteristic, can realize deploying great disinfection space like the tent disinfection cabin in this application fast. The front-side case and the rear-side case are integrally designed, miniaturization and compact integration of all functional modules are achieved, the main body is folded into an integral case group, and transportation and rapid deployment are facilitated. After the tent is unfolded, the gas chlorine dioxide generating device is connected with the flexible tent disinfection cabin, so that the field circulation preparation of the gas chlorine dioxide is realized, and the medical protective clothing, goggles, protective head covers and the like in the tent disinfection cabin are disinfected and sterilized in batches, and the safe and repeated utilization is realized. Meanwhile, an adsorption device and a fresh air module are arranged in the device, and functions of adsorption, safe emission and the like are achieved.

The foregoing description is only an overview of the technical solutions of the present invention, and in order to make the technical means of the present invention more clearly understood and to make the technical means easier to be implemented according to the content of the description, and to make the above and other objects, technical features, and advantages of the present invention easier to understand, one or more preferred embodiments are described below, and the following detailed description is given with reference to the accompanying drawings.

Drawings

One or more embodiments are illustrated by way of example in the accompanying drawings, which correspond to the figures in which like reference numerals refer to similar elements and which are not to scale unless otherwise specified.

Fig. 1 is a schematic perspective view of a batch sterilizing device for protective equipment with an inflatable tent sterilizing chamber according to the present invention.

Fig. 2 is a schematic view showing the internal structure of a batch sterilizing apparatus for protective equipment with an inflatable tent sterilizing chamber, with the front cabinet removed.

Fig. 3 is a schematic diagram of a back plate structure of a front cabinet of a batch sterilizing device for protective equipment with an inflatable tent sterilizing chamber according to the present invention.

Fig. 4 is a schematic diagram showing a right side cross-sectional structure of a batch sterilizing device for protective equipment with an inflatable tent sterilizing chamber according to the present invention.

Fig. 5 is a schematic diagram of the rear side overall structure of the batch sterilizing device for protective equipment with an inflatable tent sterilizing chamber of the present invention.

Fig. 6 shows a schematic structural view of the opening of the rear case back plate of the protective equipment batch sterilizing device with the inflatable tent sterilizing chamber of the present invention.

Fig. 7 shows a schematic structural diagram of the present invention, in which the side plates and the top plate of the rear cabinet of the batch sterilizing device for protective equipment with an inflatable tent sterilizing chamber are opened, and the sliding bottom plate slides out.

Fig. 8 is a schematic view showing the structure of an opening tensioning belt of the device for disinfecting bulk protective equipment with an inflatable tent disinfection cabin according to the present invention.

Fig. 9 is a schematic view illustrating a structure that the tent disinfecting chamber of the batch disinfecting device for protective materials with an inflatable tent disinfecting chamber of the present invention is completely opened.

Description of the main reference numerals:

1-an operation panel, 2-an electrical control module, 3-an adsorption module, 4-a touch screen, 5-a reactant A storage tank, 6-a reactant B storage tank, 7-a reactant N storage tank, 8-a waste liquid storage tank, 9-a reaction cavity, 10-an inflation air pump, 11-a peristaltic pump set, 12-an air pump reversing valve, 13-a differential pressure transmitter, 14-a diaphragm pump, 15-a concentration sensor, 16-a fresh air module, 17-an air column pressure switch, 18-a vortex fan power supply, 19-an air column inflation inlet, 20-a cabin air outlet, 21-an air inlet, 22-an LED lighting lamp power supply, 23-a temperature and humidity sensor, 24-a reaction fan, 25-an adsorption fan and 26-a front cabinet, 27-rear cabinet, 28-tent disinfection cabin, 29-tightening belt.

Detailed Description

The following detailed description of the present invention is provided in conjunction with the accompanying drawings, but it should be understood that the scope of the present invention is not limited by the following detailed description.

Throughout the specification and claims, unless explicitly stated otherwise, the word "comprise", or variations such as "comprises" or "comprising", will be understood to imply the inclusion of a stated element or component but not the exclusion of any other element or component.

Spatially relative terms, such as "below," "lower," "upper," "above," "upper," and the like, may be used herein for ease of description to describe one element or feature's relationship to another element or feature in the figures. It will be understood that the spatially relative terms are intended to encompass different orientations of the object in use or operation in addition to the orientation depicted in the figures. For example, if the items in the figures are turned over, elements described as "below" or "beneath" other elements or features would then be oriented "above" the elements or features. Thus, the exemplary term "below" can encompass both an orientation of below and above. The article may be otherwise oriented (rotated 90 degrees or at other orientations) and the spatially relative terms used herein should be interpreted accordingly.

As shown in fig. 1-9, a protection equipment batch disinfection device with an inflatable tent disinfection cabin comprises a front side case 26 and a rear side case 27, wherein a chlorine dioxide generator and an inflatable air pump 10 are arranged in the front side case 26, the inflatable tent disinfection cabin 28 is arranged in the rear side case 27, an inflation/deflation port and a cabin body air inlet 21 are arranged on the tent disinfection cabin 28, an air column inflation port 19 is arranged on a back plate of the front side case 26, and the inflatable air pump 10 is connected with the inflation/deflation port of the tent disinfection cabin 28 through the air column inflation port 19.

A tensioning belt 29 and a sliding bottom plate are arranged in the rear case, the tent disinfection cabin 28 is stored on the sliding bottom plate after being deflated, and the tensioning belt 29 tightens the deflated tent disinfection cabin 28 and stores the same in the rear case. The tent disinfection cabin 28 is fixedly connected with the front side chassis 26, and the tent disinfection cabin 28 is connected with the front side chassis 26 in the unfolding, folding and using processes. The specific method comprises the following steps: the back plate of the front case 26 is provided with an interface with the tent disinfection cabin 28, the interface is provided with a disinfection process interface, the periphery of the interface is provided with a flange, and the upper and lower flanged flexible flanges of the side wall of the tent disinfection cabin 28 are tightly pressed and clamped on the interface through the peripheral flange.

The back plate, the top plate, the bottom plate and the two side plates of the rear side case 27 are in movable plate connection, wherein the back plate is divided into two symmetrical parts which are respectively connected with the side plates at two sides by 180-degree and 90-degree hinges, and the back plate is connected with the top plate and the bottom plate by splicing and combining buckles; the top plate and the side plate are respectively connected with the top plate and the side plate of the front cabinet 26 by 180-degree hinges; the bottom plate is connected with the bottom plate of the front side case 26 by adopting a slide way in a sliding operation mode, and is provided with a limit and a bolt for fixing.

Chlorine dioxide generating device includes reactant A holding vessel 5, reactant B holding vessel 6, reactant N holding vessel 7, reaction chamber 9, peristaltic pump group 11 and reaction fan 24, peristaltic pump group 11 includes the reactant peristaltic pump, the input of reactant peristaltic pump is connected with reactant A holding vessel 5, reactant B holding vessel 6 and reactant N holding vessel 7 respectively, the output and the reaction chamber 9 of reactant peristaltic pump are connected, reaction fan 24 and the access connection of reaction chamber 9 air pipe, the cabin body air intake 21 of the export and the tent disinfection cabin 28 of reaction chamber 9 air pipe is connected. When the gaseous chlorine dioxide generator is used for preparing gaseous chlorine dioxide for disinfection, firstly, the reactant A, the reactant B and the reactant N are respectively added into the reactant A storage tank 5, the reactant B storage tank 6 and the reactant N storage tank 7 through rubber hoses and valves. The reactant peristaltic pump sequentially pumps the reactant B and the reactant A from the reactant B storage tank 6 and the reactant A storage tank 5 and injects the reactant B and the reactant A into the reaction cavity 9, and the reactant A and the reactant B react to generate gas chlorine dioxide gas. The reaction fan 24 enters the reaction chamber 9 from the inlet of the ventilation duct of the reaction chamber 9, and takes the chlorine dioxide gas into the tent disinfection cabin 28 from the outlet of the ventilation duct. After the reaction is finished, the reactant peristaltic pump pumps the reactant N from the reactant N storage tank 7 and injects the reactant N into the reaction cavity 9, and neutralizes the liquid after the reaction of the reactant A and the reactant B.

The chlorine dioxide generating device further comprises a waste liquid storage tank 8, the peristaltic pump set 11 further comprises a waste liquid peristaltic pump, the input end of the waste liquid peristaltic pump is connected with the reaction cavity 9, and the output end of the waste liquid peristaltic pump is connected with the waste liquid storage tank 8. The reactant N neutralizes the liquid generated after the reactant A and the reactant B react to generate waste liquid. The waste liquid is then pumped by a waste liquid peristaltic pump of the peristaltic pump set 11 into a waste liquid cavity in the waste liquid storage tank 8. Or starting the next working cycle of gas chlorine dioxide generation.

Still be equipped with adsorption equipment in the front side machine case 26, adsorption equipment includes adsorption fan 25 and adsorption module 3, be equipped with cabin body air outlet 20 on the tent disinfection cabin 28, adsorption fan 25's input and cabin body air outlet 20 are connected, adsorption fan 25's output and adsorption module 3 are connected. After the gaseous chlorine dioxide is fumigated, the internal circulation mode of the adsorption fan 25 is started, the gas in the tent disinfection cabin 28 circulates through the activated carbon filter in the adsorption module 3, the chlorine dioxide gas in the tent disinfection cabin 28 is gradually absorbed, and the adsorption fan 25 is started to be switched to an external discharge mode when the safe concentration capable of being discharged is reached through detecting the content of chlorine dioxide in real time.

Still be equipped with new trend module 16 in the front side machine case 26, new trend module 16 includes the new trend fan, new trend fan is connected with cabin body air intake 21. When the adsorption fan 25 is switched to the outward exhaust mode, the fresh air fan is started simultaneously to send fresh air into the tent disinfection cabin 28, so that the gas in the tent disinfection cabin 28 is replaced and exhausted outward.

A diaphragm pump 14 and a concentration sensor 15 are further arranged in the front side cabinet 26, an input end of the diaphragm pump 14 is connected with the tent disinfection cabin 28, an output end of the diaphragm pump 14 is connected with an input end of the concentration sensor 15, and an output end of the concentration sensor 15 is connected with the tent disinfection cabin 28. The diaphragm pump 14 is used for sampling in the tent disinfection cabin 28, then conveying the collected gas sample to the concentration sensor 15 for testing the concentration of chlorine dioxide, when the concentration tested by the concentration sensor 15 reaches a certain value, ending the cycle of preparing gas chlorine dioxide, starting fumigation, and putting disinfection equipment needing disinfection into the tent disinfection cabin 28 to start fumigation.

Be equipped with vortex fan power 18 and air column pressure switch 17 on the backplate of front side machine case 26, be equipped with vortex fan and pressure differential transmitter 13 in the tent disinfection cabin 28, vortex fan power 18 and the work of vortex fan connection control vortex fan, air column pressure switch 17 monitors the air column pressure in the tent disinfection cabin 28, pressure differential transmitter 13 shows the inside and outside pressure differential of tent disinfection cabin 28. The function of the vortex fan is that after the chlorine dioxide gas starts to react, the power supply 18 of the vortex fan is turned on and then the vortex fan starts to work, so that the chlorine dioxide in the tent disinfection cabin 28 can be distributed uniformly and excessively and rapidly. Gas column pressure in gas column pressure switch 17 monitoring tent disinfection cabin 28, pressure differential transmitter 13 can the inside and outside pressure value of real-time supervision tent disinfection cabin 28, if the pressure value is not at the safety range in the use, can start the inflation air pump and mend the gassing.

Be equipped with LED light power 22 and temperature and humidity sensor 23 on the backplate of front side machine case 26, LED light power 22 and the interior LED light connection of tent disinfection cabin 28 provide the mains operated, temperature value and the humidity value in the tent disinfection cabin 28 of temperature and humidity sensor 23 monitoring. The LED illuminating lamp is used for illuminating after being inflated in the tent disinfection cabin 28, and the temperature and humidity sensor 23 is used for monitoring the temperature value and the humidity value in the tent disinfection cabin 28.

The air pump 10 is provided with an air pump reversing valve 12, and the air pump reversing valve 12 controls the air flow direction of the air pump 10 to realize the inflation and deflation of the tent disinfection cabin 28. Through the switching of the gas reversing valve 12, the air flow direction of the inflation air pump 10 can be controlled to realize the inflation and deflation of the tent disinfection cabin 28, when the protection equipment needs to be disinfected in batches, the inflation mode is firstly switched, and the tent disinfection cabin 28 is inflated and opened; when the sterilization work is completed, the air release mode is switched to, the air in the tent sterilization chamber 28 is released, and the tent sterilization chamber 28 is retracted into the rear cabinet 27.

The front side chassis is provided with an operation panel 1 and an electrical control module 2, the operation panel 1 is provided with a touch screen 4, and the touch screen 4 is electrically connected with the electrical control module 2. The operating personnel accessible control panel 1 and touch-sensitive screen 4 carry out the instruction operation, control the device through electric control module 2, carry out each item disinfection work.

Fig. 5 to 9 are schematic diagrams illustrating the development process of the device for disinfecting a protective equipment batch with an inflatable tent disinfection cabin according to the present invention, and fig. 5 is a schematic diagram illustrating the overall structure of the rear side. As shown in fig. 6, which is a schematic structural diagram of the back plate of the rear cabinet being opened, the back plate of the rear cabinet 27 is rotated by 90 ° and then is connected to the side plate. Fig. 7 is a schematic structural diagram showing that the side plates and the top plate of the rear chassis are opened, and the sliding bottom plate slides out, the top plate of the rear chassis 27 rotates 180 degrees and then abuts against the top plate of the front chassis 26, the side plate of the rear chassis 27 and the back plate rotate 180 degrees and then abut against the side plate of the front chassis 26, and the two back plates of the rear chassis 27 rotate 90 degrees back and then abut against the two side plates and are fixed. At this time, the folded tent sterilization chamber 28 is fixed to the back plate of the front cabinet 26 by the tightening strap 29, and if the tent sterilization chamber 28 is pressed against the bottom plate, the tightening strap 29 is tightened to separate the tent sterilization chamber 28 from the bottom plate, and the bottom plate is slid outward. Fig. 8 shows a schematic view of the structure of the opened tightening strap, the tightening strap 29 is released, the tent sterilization chamber 28 is unfolded, and the support is inflated, and the internal appliances (vortex fan, hanging tool, LED lamp, power supply, etc.) are prepared. Fig. 9 is a schematic view of the structure of the tent sterilization chamber fully opened.

The utility model discloses a protection equipment is degassing unit in batches with inflatable tent disinfection cabin's expansion process is when drawing up, according to the operation of the contrary preface of expansion process can.

The foregoing descriptions of specific exemplary embodiments of the present invention have been presented for purposes of illustration and description. It is not intended to limit the invention to the precise form disclosed, and obviously many modifications and variations are possible in light of the above teaching. The exemplary embodiments were chosen and described in order to explain certain principles of the invention and its practical application to enable one skilled in the art to make and use various exemplary embodiments of the invention and various alternatives and modifications as are suited to the particular use contemplated. Any simple modifications, equivalent changes and modifications made to the above exemplary embodiments shall fall within the scope of the present invention.

Claims (10)

1. The protective equipment batch disinfection device with the inflatable tent disinfection cabin is characterized by comprising a front side case (26) and a rear side case (27), wherein a chlorine dioxide generation device and an inflatable air pump (10) are arranged in the front side case, the inflatable tent disinfection cabin (28) is arranged in the rear side case (27), an inflation/deflation port and a cabin body air inlet (21) are arranged on the tent disinfection cabin (28), an air column inflation port (19) is arranged on a back plate of the front side case (26), and the inflatable air pump (10) is connected with the inflation/deflation port of the tent disinfection cabin (28) through the air column inflation port (19);

chlorine dioxide generating device includes reactant A holding vessel (5), reactant B holding vessel (6), reactant N holding vessel (7), reaction chamber (9), peristaltic pump group (11) and reaction fan (24), peristaltic pump group (11) include the reactant peristaltic pump, the input of reactant peristaltic pump is connected with reactant A holding vessel (5), reactant B holding vessel (6) and reactant N holding vessel (7) respectively, the output and reaction chamber (9) of reactant peristaltic pump are connected, reaction fan (24) and the access connection of reaction chamber (9) air pipe, the export of reaction chamber (9) air pipe is connected with cabin body air intake (21) of tent disinfection cabin (28).

2. The device for disinfecting protective equipment in batches with the inflatable tent disinfection cabin according to claim 1, wherein an adsorption device is further arranged in the front-side case (26), the adsorption device comprises an adsorption fan (25) and an adsorption module (3), the tent disinfection cabin (28) is provided with a cabin air outlet (20), an input end of the adsorption fan (25) is connected with the cabin air outlet (20), and an output end of the adsorption fan (25) is connected with the adsorption module (3).

3. The apparatus for disinfecting a protective equipment batch with an inflatable tent disinfection cabin according to claim 2, wherein a fresh air module (16) is further arranged in the front cabinet (26), the fresh air module (16) comprises a fresh air fan, and the fresh air fan is connected with the cabin air inlet (21).

4. The device for disinfecting a protective device in batch with an inflatable tent disinfection cabin according to claim 3, characterized in that the chlorine dioxide generator further comprises a waste liquid storage tank (8), the peristaltic pump set (11) further comprises a waste liquid peristaltic pump, an input end of the waste liquid peristaltic pump is connected with the reaction chamber (9), and an output end of the waste liquid peristaltic pump is connected with the waste liquid storage tank (8).

5. The device for disinfecting a protective device in batch with an inflatable tent disinfection cabin according to claim 4, characterized in that a diaphragm pump (14) and a concentration sensor (15) are further arranged in the front cabinet (26), the input end of the diaphragm pump (14) is connected with the tent disinfection cabin (28), the output end of the diaphragm pump (14) is connected with the input end of the concentration sensor (15), and the output end of the concentration sensor (15) is connected with the tent disinfection cabin (28).

6. The batch disinfection device for protective equipment with the inflatable tent disinfection cabin according to claim 5, wherein a vortex fan power supply (18) and a gas column pressure switch (17) are arranged on a back plate of the front cabinet (26), a vortex fan and a differential pressure transmitter (13) are arranged in the tent disinfection cabin (28), the vortex fan power supply (18) is connected with the vortex fan to control the operation of the vortex fan, the gas column pressure switch (17) monitors the gas column pressure in the tent disinfection cabin (28), and the differential pressure transmitter (13) displays the internal and external differential pressure of the tent disinfection cabin (28).

7. The device for disinfecting protective equipment in batches with the inflatable tent disinfection cabin according to claim 6, characterized in that an LED lighting lamp power supply (22) and a temperature and humidity sensor (23) are arranged on a back plate of the front-side case (26), the LED lighting lamp power supply (22) is connected with an LED lighting lamp in the tent disinfection cabin (28) to provide power supply, and the temperature and humidity sensor (23) monitors a temperature value and a humidity value in the tent disinfection cabin (28).

8. The device for disinfecting the bulk of protective equipment with the inflatable tent disinfection cabin according to claim 7, wherein the inflatable air pump (10) is provided with an air pump reversing valve (12), and the air pump reversing valve (12) controls the air flow direction of the inflatable air pump (10) to inflate and deflate the tent disinfection cabin (28).

9. The apparatus for disinfecting bulk protective equipment with an inflatable tent disinfection chamber as claimed in claim 8, wherein a tightening strap (29) and a sliding bottom plate are arranged in the rear cabinet, the tent disinfection chamber (28) is stored on the sliding bottom plate after being deflated, and the tightening strap (29) tightens the deflated tent disinfection chamber (28) and stores the same in the rear cabinet.

10. The device for disinfecting a protective material in batches with an inflatable tent disinfection cabin according to claim 9, characterized in that an operation panel (1) and an electrical control module (2) are arranged on the front side chassis, a touch screen (4) is arranged on the operation panel (1), and the touch screen (4) is electrically connected with the electrical control module (2).

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