CN109764644B - A weather system for medical instrument - Google Patents

Abstract

The invention relates to a blow-drying system for medical equipment, which comprises a frame, an air source supply device arranged at the lower part of the frame and capable of outputting high-temperature air with constant temperature, a spray gun assembly connected with the air source supply device, and an operation bin arranged at the upper part of the frame and used for blow-drying the equipment; the operation bin comprises a shielding cover for avoiding gas-liquid splashing and reducing noise, and a containing cavity which is arranged on the inner side of the shielding cover and used for containing the instrument for drying operation. The blow-drying system for the medical instrument can provide high-temperature gas with constant temperature, can accelerate the drying speed of the instrument, saves the operation time and improves the working efficiency; the device can avoid gas-liquid splashing in the process of blow-drying operation of the instrument, thereby avoiding affecting the operation of medical staff and avoiding the risk of cross infection to the medical staff; in addition, the noise of the spray gun assembly when the instrument is dried can be reduced, the influence on the normal work of medical staff and the hearing of operators can be reduced, and occupational injuries can be prevented.

Description

A weather system for medical instrument

Technical Field

The present invention relates to medical drying systems, and more particularly to a blow-drying system for medical devices.

Background

At present, the medical instrument is dried, especially the lumen type instrument is dried, the spray gun is mainly adopted to dry directly, and the operation place of the spray gun is mainly in a hospital endoscope center, a digestive system department and a disinfection supply center, in the drying operation process, gas-liquid splashing is easily generated on the medical instrument, thereby affecting the operation of medical staff, the splashed gas-liquid is directly splashed into a working environment, microorganisms carried in residual water are dispersed in the air to easily cause environmental pollution, the risk of cross infection is brought to the medical staff, in addition, the spray gun sprays high-pressure gas, and the gas impacts the medical instrument to generate larger noise, thereby affecting the work of the medical staff and damaging the hearing of operators.

Disclosure of Invention

The invention aims to solve the technical problem of providing a blow-drying system which can avoid gas-liquid splashing, reduce noise, reduce pollution, is environment-friendly and has high safety performance.

The technical scheme adopted for solving the technical problems is as follows: the blow-drying system for the medical equipment comprises a frame, an air source supply device, a spray gun assembly and an operation bin, wherein the air source supply device is arranged at the lower part of the frame and can output high-temperature air with constant temperature;

the operation cabin comprises a shielding cover for avoiding gas-liquid splashing and reducing noise, and a containing cavity which is arranged on the inner side of the shielding cover and used for containing the instrument for operation.

Preferably, the air source supply device comprises an air compressor and a control device connected with the air compressor; the discharge port of the air compressor is connected with the spray gun assembly;

the air source supply device further comprises an adjusting component which is connected with the control device and the discharge port to adjust the discharge amount of the discharge port;

the air source supply device also comprises a heating module for heating the air output by the air compressor and a temperature detection module connected with the control device for detecting the heating temperature of the heating module and feeding back the heating temperature to the control device.

Preferably, the shielding cover is of a hollow structure, one end of the shielding cover is provided with an opening for spraying the gas of the spray gun assembly, and the other end of the shielding cover is provided with an output pipe for outputting the gas and the liquid.

Preferably, the blow-drying system for medical devices further comprises a first filter assembly, wherein the first filter assembly is arranged in the output pipe and detachably connected with the output pipe.

Preferably, the blow-drying system further comprises a negative pressure air draft device for exhausting the gas and liquid in the shielding cover; and one end of the output pipe, which is far away from the shielding cover, is connected with the negative pressure air draft device.

Preferably, the caliber of the shielding cover is gradually reduced along the direction of spraying gas from the spray gun assembly; the shielding cover comprises a first shielding surface and a second shielding surface which are arranged on the inner side of the accommodating cavity; the first shielding surface and the second shielding surface are oppositely arranged and are respectively inclined towards the output pipe so as to enable the air supply liquid to flow into the output pipe.

Preferably, a fixing component for fixing the medical instrument is arranged in the shielding cover;

And/or an angle adjusting mechanism for adjusting the setting angle of the shielding cover is arranged between the shielding cover and the rack.

Preferably, the spray gun assembly comprises a spray gun and a connecting tube connected to the spray gun and the air supply.

Preferably, a group of casters are arranged at the bottom of the frame;

The frame comprises a box body and an upright post which is arranged on the box body and can be lifted, the group of casters are arranged on the box body, and the operation bin is arranged at one end of the upright post far away from the box body; the air source supply device is arranged in the box body;

The box body is provided with a second filtering component, and the second filtering component is connected with the output pipe through a set pipeline so as to filter the gas output by the output pipe;

And a power supply device which is electrically connected with the air source supply device and the spray gun assembly to supply electric energy is also arranged in the box body.

Preferably, the blow-drying system for medical devices further comprises a storage device, wherein the storage device is arranged on the upright post;

The blow-drying system for medical devices further comprises a bracket for placing the spray gun assembly; the support is arranged on the upright post.

The blow-drying system for the medical instrument has the following beneficial effects: this a weather system for medical instrument sets up the gaseous air supply device of high temperature and sets up the operation storehouse in frame upper portion that can export constant temperature through the frame lower part to and set up the spray gun subassembly of being connected with this air supply device, and through setting up the shield cover on the operation storehouse, thereby can avoid the apparatus to weather the operation in-process gas-liquid and splash, thereby avoid influencing medical personnel's operation, avoid gas-liquid directly to discharge the risk that brings cross infection for medical personnel in the operational environment, it can also reduce the noise when this spray gun subassembly weathers the apparatus, reduce the hearing that influences medical personnel normal work and protection operating personnel, prevent to arouse professional injury, in addition, this a weather system for medical instrument still can provide constant temperature's high temperature gas, can accelerate the apparatus drying rate, save operating time, improve work efficiency.

Drawings

The invention will be further described with reference to the accompanying drawings and examples, in which:

FIG. 1 is a schematic view of a blow-drying system for medical devices according to the present invention;

fig. 2 is a cross-sectional view of a blow-drying system for medical devices of the present invention.

Detailed Description

For a clearer understanding of technical features, objects and effects of the present invention, a detailed description of embodiments of the present invention will be made with reference to the accompanying drawings.

Fig. 1 and 2 illustrate a preferred embodiment of a blow-drying system for medical devices of the present invention. This a system weathers for medical instrument can be used for the drying of lumen class apparatus, and it can provide the high temperature gas of invariable temperature, can accelerate the apparatus drying rate, saves operating time, improves work efficiency, and it can avoid gas-liquid to splash, noise abatement, pollution abatement, has green, advantage that the security performance is high. Of course, it will be appreciated that in other embodiments, it is not limited to a luminal-like instrument.

As shown in fig. 1 and 2, the blow-drying system for medical devices comprises a frame 10, an air source supply device, a spray gun assembly 20, and an operation bin 30; the frame 10 can be used for installing a gas source supply device and an operation bin 30, the gas source supply device is arranged at the lower part of the frame 10, and can provide a gas source for the spray gun assembly 20, and can output high-temperature gas with constant temperature to the spray gun assembly 20, so that the spray gun assembly 20 can spray hot air with constant temperature, further the drying speed of the equipment can be accelerated, the operation time is saved, the working efficiency is improved, the spray gun assembly 20 is connected with the gas source supply device, and high-pressure gas can be sprayed to blow residual liquid on the medical equipment, thereby achieving the effect of drying the medical equipment. The operation bin 30 is disposed at the upper portion of the frame 10, and is configured to allow a drying operation of the apparatus, and to prevent gas and liquid from splashing and reduce noise.

Further, in the present embodiment, the frame 10 includes a case 11 and a vertical column 13 provided on the case 11 to be liftable; the case 11 may be installed using the air supply device, and the column 13 is erected on the case 11, which may be installed for the operation bin 30. The operation bin 30 and the air source supply device can be integrated into a whole by arranging the box 11 and the upright post 13, thereby saving the placing space of the whole system. The upright 13 may be a telescopic rod to facilitate lifting and lowering of the upright 13. Of course, it will be appreciated that in other embodiments, the upright 13 may not be limited to a telescoping pole. It will be appreciated that in other embodiments, the frame 10 is not limited to a combination of a box and the upright 13.

In this embodiment, the stand 10 may be a movable stand to facilitate movement of the blow-drying system for medical devices, in particular, the bottom of the stand 10 is provided with a set of casters 12; the set of casters 12 includes four casters, which are respectively disposed at the bottom of the case 11 of the frame 10, and the casters 12 may be universal wheels. Of course, it will be appreciated that in other embodiments, the caster 12 is not limited to a universal wheel, and in some embodiments, the caster 12 may be omitted.

In this embodiment, the housing 11 is further provided with a power supply device, which may be a battery, electrically connected to the air supply device and the spray gun assembly 20, which may be used to provide the electric power required for operation of the air supply device and the spray gun assembly 20. Correspondingly, the box 11 is also provided with a charging port connected with the storage battery to be connected with a charging wire for charging the power supply device. It will be appreciated that in other embodiments, the power supply means may be a power cord provided on the housing 11, which may be connected to a peripheral power source.

Further, the air supply device is provided in the case 11, and the air supply device includes an air compressor provided in the case 11, which can be used to compress air, and a control device, a discharge port of which is connected with the spray gun assembly 20 to output compressed air into the spray gun assembly 20, thereby enabling the spray gun assembly 20 to output high pressure air. The control device is arranged in the box 11, is connected with the air compressor, and can control the opening or closing of the air compressor and control the output gas quantity of the air compressor. The control device can comprise a control circuit arranged in the box body 11 and a control switch arranged on the box body 11 and connected with the control circuit, the control switch can be a foot switch, can be operated by medical staff conveniently, is not required to be operated by hands when the medical staff squats down, can relieve the hands of the medical staff, and is convenient for the medical staff to operate the start and stop of the air compressor in time.

In this embodiment, the air supply device further includes a regulating assembly; the adjusting component is connected with the control device, is arranged at the discharge port of the air compressor, is connected with the discharge port of the air compressor, and can be used for adjusting the discharge amount of the discharge port. In this embodiment, the adjusting component may be an adjusting valve with a plurality of gears, which is connected to the control device, and correspondingly, the control device further includes an adjusting button disposed on the housing 11 and connected to the adjusting valve. Of course, it will be appreciated that in other embodiments, the adjustment assembly may be omitted.

In this embodiment, the air supply device further includes a heating module disposed in the case 11 and located at the discharge port of the air compressor, which is connected to the control device and can heat the air output from the air compressor, so that the spray gun assembly 20 outputs high-temperature air, thereby improving the drying efficiency of the medical apparatus. The heating module may be an electrical heater wire or an electromagnetic heating device, although it will be appreciated that in other embodiments the heating module is not limited to being provided at the discharge of the air compressor, it may be provided on the spray gun assembly 20, and of course, it may be omitted.

In this embodiment, a temperature detection module connected to the control device to detect the heating temperature of the heating module and feed back the heating temperature to the control device may be further disposed in the case 11, and may be used to detect the temperature of the gas discharged from the discharge port of the air compressor. The temperature detection module is connected with the temperature control module of the control device, and the temperature control module is connected with the heating module so as to control the heating module to start and stop when the temperature detection module detects that the temperature of the gas discharged from the discharge port of the air compressor exceeds the preset temperature, and further adjust the temperature of the gas output from the discharge port, so that the temperature of the gas output from the gas source supply device is constant. The temperature detection module may be a temperature sensor, it being understood that in other embodiments it may be omitted.

Further, in the present embodiment, the spray gun assembly 20 includes a spray gun 21 and a connecting tube 22; the spray gun 21 may spray high pressure gas toward the operation bin 30, and the connection pipe 22 has one end connected to the spray gun 21 and the other end connected to the gas supply device, specifically, one end of the connection pipe 22 is connected to the gas input port of the spray gun 21 and the other end is connected to the discharge port of the air compressor. In this embodiment, the connection pipe 22 may be a high temperature resistant hose.

Further, the operation bin 30 is disposed at an end of the upright 13 away from the case 11, which is convenient for medical staff to blow-dry the apparatus. The operation bin 30 includes a shield 31 and a housing chamber 32; this shield 31 can be used for avoiding gas-liquid to splash thereby avoid influencing medical personnel's operation, thereby avoids gas-liquid directly to discharge and brings cross infection's risk for medical personnel in the operational environment, in addition, it can also reduce the noise when this spray gun subassembly weathers the apparatus, avoids influencing medical personnel's work and patient's rest. The receiving chamber 32 is provided inside the shielding 31, which can be used for receiving the instruments for a blow-drying operation.

Specifically, the shielding cover 31 may have a hollow structure, one end of which is provided with an opening into which the gas of the spray gun assembly 20 is sprayed, and the other end of which is provided with an output pipe 33 for outputting the gas and the liquid; one end of the output pipe 33 may be connected to a gas-liquid collecting device, and the gas sprayed from the spray gun assembly 20 may be sprayed from the opening, so that after the moisture on the medical apparatus is taken away, the formed gas-liquid mixture is output from the output pipe 33, thereby avoiding gas-liquid splashing and avoiding direct discharge of the gas-liquid into the working environment to pollute the environment.

In this embodiment, a securing assembly may also be provided in the shield 31, which may be used to secure instruments placed in the shield 31. The fixed component may be one or more. The fixed component can be a fixed clamping position, a fixed clamp or a magnetic attraction piece, in the embodiment, the fixed component is preferably a fixed clamping position which is arranged on the top wall of the shielding cover 31 and is opened towards the accommodating cavity 32, and the fixed component can be used for clamping an instrument so as to facilitate the drying operation of medical staff, and the medical staff is not required to hold the blown instrument by hand, so that the operation efficiency of the medical staff is improved. Of course, it will be appreciated that in other embodiments, the securing assembly may be omitted.

In the present embodiment, the shield 31 may be tapered, but it is understood that the shape of the shield 31 is not limited to tapered in other embodiments. The aperture of the shielding cover 31 is gradually reduced along the direction of the gas sprayed out of the spray gun assembly 20 so as to facilitate the collection of the gas and the liquid. The shield 31 includes a first shield surface 311 and a second shield surface 312 provided inside the accommodation chamber 32; the first shielding surface 311 and the second shielding surface 312 may be cambered surfaces; the first shielding surface 311 and the second shielding surface 312 are disposed opposite to each other, and are disposed obliquely to the output pipe 33, respectively, so that the gas-liquid adhering to the first shielding surface 311 and the second shielding surface 312 flows into the output pipe 33.

In this embodiment, an angle adjusting mechanism is further disposed between the shielding case 31 and the frame 10, so as to adjust the setting angle of the shielding case 31. Specifically, the angle adjusting mechanism is disposed between the shielding case 31 and the upright 13, and the angle adjusting mechanism includes a clamping groove 313 disposed on the shielding case 31 for the upright to be clamped in; the upright 13 is detachably clamped into the clamping groove 313, so that the upright and the shielding cover 31 form a link mechanism, and the angle of the shielding cover 31 can be adjusted by medical staff according to needs. Of course, it will be appreciated that in other embodiments, the slot 313 may be omitted, and in other embodiments, the angle adjustment mechanism may be a linkage mechanism disposed between the shield 31 and the frame 10, with one end of the linkage mechanism being connected to the shield 31 and the other end being connected to the post 13 of the frame 10. Or the angle adjusting mechanism may be a rotating shaft mechanism disposed between the shielding cover 31 and the frame 10, a rotating shaft is disposed on a contact surface of the shielding cover 31 and the upright post 13, the rotating shaft may be disposed along a width direction of the shielding cover 31, and the upright post is provided with a shaft hole portion matched with the rotating shaft, so that the rotating shaft rotates around the shaft hole portion, and further an angle of the shielding cover 31 is adjusted. Of course, it will be appreciated that in other embodiments, the angle adjustment mechanism may be omitted.

Further, in this embodiment, the blow-drying system for medical devices further comprises a first filter assembly 40; the first filter assembly 40 is disposed in the output tube 33, and can filter the aerosol in the gas-liquid flowing into the output tube 33, so as to avoid the aerosol in the gas-liquid from being directly discharged. The aerosol may be generated by high temperature gas impingement of a lumen-like instrument. The first filter assembly 40 can be detachably connected to the output tube 33 to facilitate replacement of the first filter assembly 40. The first filter assembly 40 may be a filter screen, filter cotton cleaner, etc.; in this embodiment, the first filter assembly 40 is preferably a filter plug.

Further, in this embodiment, the blow-drying system for medical devices further comprises a second filter assembly 14; the second filter assembly 14 may be disposed in the case 11, and the first filter assembly 14 may be connected to the output pipe 33 by a pipe, which may be used to filter the gas output from the output pipe 33, so as to further purify the gas, so as to facilitate the recycling of the gas output from the output pipe 33. The second filter assembly 14 may be a filter mesh or a filter cotton core; the filter screen or the filter cotton core can be soaked with chemical reagent for eliminating toxic components in the gas output by the output pipe 33. Of course, it will be appreciated that in other embodiments, the second filter assembly 14 may be omitted.

Further, in this embodiment, the blow-drying system further includes a negative pressure air suction device 50; the negative pressure air extracting device 50 is disposed at an end of the output tube 33 away from the shielding case 31, and is connected to the output tube 33, and is located at an end of the first filter assembly 40 away from the shielding case 31, and can extract the gas and liquid of the shielding case 31. In this embodiment, the negative pressure suction device may be a negative pressure suction fan. Of course, it will be appreciated that in other embodiments, the negative pressure suction device may be omitted.

Further, in the present embodiment, the blow-drying system for medical devices further includes a stand 60; the bracket 60 is disposed on the post 13, which allows for placement of the spray gun assembly 20. In this embodiment, specifically, the bracket 60 may include a mounting plate sleeved on the periphery of the upright 13 and extending radially toward the upright 13; the mounting plate is provided with a through hole which is matched with the size of the spray gun 21 of the spray gun assembly 20 so as to facilitate the insertion and fixation of the spray gun 21. Of course, it will be appreciated that in other embodiments, the support 60 is not limited to the manner set forth above, and in other embodiments, the support 60 may be omitted.

Further, in the present embodiment, the blow-drying system for medical devices further includes a receiving device 70; the receiving device 70 is disposed on the frame 10, specifically, the receiving device 70 is disposed on the upright 13, which is located below the output tube 33, and can be used for receiving the waste liquid discharged from the output tube 33. The receiving device 70 may be connected to the bracket 60 to form an integrated structure. It will be appreciated that in other embodiments, the receiving device 70 may be omitted.

It is to be understood that the above examples only represent preferred embodiments of the present invention, which are described in more detail and are not to be construed as limiting the scope of the invention; it should be noted that, for a person skilled in the art, the above technical features can be freely combined, and several variations and modifications can be made without departing from the scope of the invention; therefore, all changes and modifications that come within the meaning and range of equivalency of the claims are to be embraced within their scope.

Claims (8)

1. A blow-drying system for medical equipment is characterized by comprising a frame (10), an air source supply device which is arranged at the lower part of the frame (10) and can output high-temperature air with constant temperature, a spray gun assembly (20) which is connected with the air source supply device, and an operation bin (30) which is arranged at the upper part of the frame (10) and is used for blow-drying the equipment;

The operation bin (30) comprises a shielding cover (31) for avoiding gas-liquid splashing and reducing noise and a containing cavity (32) arranged on the inner side of the shielding cover (31) for containing the instrument for drying operation;

The shielding cover (31) is of a hollow structure, one end of the shielding cover (31) is provided with an opening for spraying gas of the spray gun assembly (20), and the other end of the shielding cover is provided with an output pipe (33) for outputting gas and liquid;

The caliber of the shielding cover (31) is gradually reduced along the direction of spraying gas from the spray gun assembly (20); the shielding cover (31) comprises a first shielding surface (311) and a second shielding surface (312) which are arranged on the inner side of the accommodating cavity (32); the first shielding surface (311) and the second shielding surface (312) are arranged opposite to each other and are respectively inclined towards the output pipe (33) so as to enable the air supply liquid to flow into the output pipe (33);

an angle adjusting mechanism for adjusting the setting angle of the shielding cover is arranged between the shielding cover (31) and the frame (10).

2. The blow-drying system for medical devices of claim 1, wherein the air supply means comprises an air compressor, and a control means connected to the air compressor; the discharge port of the air compressor is connected with the spray gun assembly (20);

the air source supply device further comprises an adjusting component which is connected with the control device and the discharge port to adjust the discharge amount of the discharge port;

the air source supply device also comprises a heating module for heating the air output by the air compressor and a temperature detection module connected with the control device for detecting the heating temperature of the heating module and feeding back the heating temperature to the control device.

3. The blow-drying system for medical devices according to claim 1, further comprising a first filter assembly (40), said first filter assembly (40) being arranged in said output duct (33) and being detachably connected to said output duct (33).

4. The blow-drying system for medical devices according to claim 1, characterized in that it further comprises negative pressure suction means (50) for drawing out the gas-liquid in the shielding enclosure (31); one end of the output pipe (33) far away from the shielding cover (31) is connected with the negative pressure air draft device (50).

5. The blow-drying system for medical devices according to claim 1, characterized in that a fixing assembly for fixing the medical device is provided in the shielding case (31).

6. A blow drying system for medical devices according to claim 1, characterized in that the spray gun assembly (20) comprises a spray gun (21) and a connection tube (22) connected to the spray gun (21) and the air supply.

7. The blow-drying system for medical devices according to claim 1, characterized in that the bottom of the frame (10) is provided with a set of casters (12);

The frame (10) comprises a box body (11) and a vertical column (13) which is arranged on the box body (11) and can be lifted, the group of casters (12) are arranged on the box body (11), and the operation bin (30) is arranged at one end, far away from the box body (11), of the vertical column (13); the air source supply device is arranged in the box body (11);

the box body (11) is provided with a second filtering component (14), and the second filtering component (14) is connected with the output pipe (33) through a pipeline to filter the gas output by the output pipe (33);

And a power supply device which is electrically connected with the air source supply device and the spray gun assembly (20) to supply electric energy is also arranged in the box body (11).

8. The blow-drying system for medical devices according to claim 7, characterized in that it further comprises a housing means (70), said housing means (70) being arranged on said upright (13);

The blow-drying system for medical devices further comprises a stand (60) for placement of the spray gun assembly (20); the bracket (60) is arranged on the upright post (13).