CN211953629U

CN211953629U - Medical instrument quick drying device

Info

Publication number: CN211953629U
Application number: CN202020181701.0U
Authority: CN
Inventors: 鲁登波; 朱磊; 张丽群; 聂洪林; 刘俊
Original assignee: Laoken Medical Technology Co Ltd
Current assignee: Laoken Medical Technology Co Ltd
Priority date: 2020-02-18
Filing date: 2020-02-18
Publication date: 2020-11-17
Anticipated expiration: 2030-02-18

Abstract

The utility model relates to a medical instrument drying equipment technical field, concretely relates to medical instrument quick drying device, which comprises a housin, be provided with air inlet interface, the interface of giving vent to anger, display module and human-computer interaction module on the lateral wall of casing, be provided with heating box, intake pipe, outlet duct, sensor unit and controller in the casing, the both ends of intake pipe communicate with air inlet interface, heating box's entry respectively, and the outlet duct passes through the export intercommunication of three-way valve with the heating box, the sensor unit sets up the third port at the three-way valve. The utility model discloses can replace traditional vacuum drying cabinet, save the resource, reduce customer use cost, can directly weather the inside and outside moisture of treating sterilization apparatus with this drying device fast after the medical instrument sanitization, save the preliminary period preparation required time before medical instrument gets into the steriliser, improve drying efficiency, and this drying device is small, and it is convenient that the installation is torn open to get, is applicable to in the various environment.

Description

Medical instrument quick drying device

Technical Field

The utility model relates to a medical instrument drying equipment technical field, concretely relates to medical instrument quick drying device.

Background

Medical instruments can be divided into common instruments, precision instruments, endoscope instruments and the like according to different purposes, and the instruments are easily damaged in the cleaning and disinfecting process, so that the service quality and the service life of the instruments are influenced, the damage degree of the instruments can be reduced by adopting a correct cleaning method, the pollution possibility of operators is reduced, the sterilization quality is ensured, and the environment and other people are protected.

The hydrogen peroxide low-temperature plasma sterilizer is one of medical instrument sterilizing equipment, and can be used for sterilizing metal medical instruments at low temperature and non-metal medical instruments at low temperature. The medical device is sterilized by the diffusion of hydrogen peroxide within the chamber, which is then "energized" into a plasma state. The hydrogen peroxide vapor, by combining with the plasma, can safely and rapidly sterilize medical instruments and materials without leaving any toxic residue. The sterilization process is carried out in a dry low-temperature environment in each stage, so that instruments sensitive to heat or water vapor are not damaged, the sterilization process is suitable for metal and nonmetal instruments, and instruments such as hemostatic forceps hinges and the like which are difficult to reach (difficult to diffuse) can be sterilized. Instruments which enter a hydrogen peroxide low-temperature plasma sterilizer for sterilization at present on the market need to be sterilized through the following steps: (1) after the instrument is used, dirt is manually cleaned, and then the instrument is dried and dehumidified by an air gun; (2) putting into a drying cabinet for complete drying; (3) after the instruments are completely dried, the instruments are put into a hydrogen peroxide low-temperature plasma sterilizer for sterilization. After the above process steps, the existing hydrogen peroxide low-temperature plasma sterilizer has the following disadvantages: (1) the preparation time for sterilization is long; (2) the efficiency is low, and the drying and dehumidification of the water in the instrument bag are not controllable; (3) the drying cabinet which can not solve the problem of high-efficiency turnover purpose (4) of the client operation occupies large space.

For remedying not enough among the prior art, the utility model provides a simple structure, it is convenient to use, can weather the moisture of treating among the sterilization apparatus fast after the apparatus sanitization, saves sterilization preparation time in earlier stage, the medical instrument quick drying device of raising the efficiency.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to overcome prior art not enough, provide a medical instrument quick drying device, can replace traditional vacuum drying cabinet, save the resource, reduce customer use cost, can directly weather the inside and outside moisture of treating the sterilization apparatus with this drying device fast after the medical instrument sanitization, save the preliminary period before medical instrument gets into the sterilizer and prepare the required time, improve drying efficiency, just the utility model discloses a drying device is small, and occupation space is little, and is with low costs, and it is convenient to tear open in the installation, is applicable to various environment, has effectively widened the application scene scope of equipment.

The purpose of the utility model is realized through the following technical scheme:

the utility model provides a medical instrument quick drying device, includes the casing, be provided with the interface of admitting air, give vent to anger interface, display module and human-computer interaction module on the lateral wall of casing, be provided with heating box, intake pipe, outlet duct, sensor unit and controller in the casing, the both ends of intake pipe communicate with the entry of interface, heating box respectively, the one end of outlet duct with the interface intercommunication of giving vent to anger, the other end of outlet duct passes through the export intercommunication of three-way valve with the heating box, the sensor unit sets up the third port at the three-way valve, and sensor unit place port seals, display module, human-computer interaction module, heating box, sensor unit are connected with the controller respectively.

Further, still include the air gun, the air gun passes through the connecting pipe and gives vent to anger the interface intercommunication. In the using process, a user can input an operation instruction and check the working information of the equipment through the man-machine interaction module, and then the controller makes a corresponding response according to the operation instruction; when the medical instrument needs to be dried, the air inlet interface is externally connected with an air compressor or a compressed air source, the air compressor or the compressed air source continuously inputs compressed air to the air inlet interface, the compressed air enters the heating box through the air inlet pipe, then the compressed air is rapidly heated to a preset temperature by the heating box to form dry air, the dry air flows into the air outlet pipe through the three-way valve and flows to the air gun through the air outlet interface, and the dry air is orderly sprayed to the medical instrument through the air gun by controlling the switch and the flow rate of the air gun to dry the medical instrument; in addition, the temperature of the drying air passing through the three-way valve is detected by arranging a sensor unit, whether the temperature of the drying air reaches a preset value is monitored, and when the temperature of the drying air is monitored to be lower than the preset value, the power of the heating box is increased; when the sensor unit monitors that the temperature of the drying air passing through the three-way valve is higher than a preset value, the power of the heating box is reduced; and when the sensor unit detects that the temperature of the drying air passing through the three-way valve is higher than a limit value, the heating box stops working, and the safe operation of the equipment is ensured.

Further, the air gun is an air gun with an airflow adjusting function. The flow of the dry gas sprayed out by the air gun is determined according to the type of the medical instrument by controlling the air gun switch and adjusting the flow of the air flow, so that the utilization rate of equipment resources is improved.

Further, the muzzle of air gun includes baffle and a plurality of butt portion that set gradually along the air flow direction, butt portion is truncated cone structure, along the air flow direction, and the end footpath of butt portion reduces step by step. When carrying out the drying to the lumen inside of lumen apparatus, butt portion through the muzzle at the air gun sets up a plurality of different diameters, the lumen apparatus of different sizes is dealt with to the butt portion that utilizes different diameters, before letting in dry gas to the lumen apparatus, insert the mouth of pipe of lumen apparatus with the muzzle of air gun, and let butt portion or baffle seal the one end mouth of pipe of lumen apparatus, then control air gun switch, let in dry air to the lumen of lumen apparatus, let compressed dry air pass through the lumen fast, take away the water stain of lumen, carry out quick drying to the inside of lumen apparatus, guarantee that equipment can both carry out quick effectual drying inside and outside the official cavity apparatus of different grade type and size.

Further, the top diameter of two adjacent abutting parts, which is close to the partition plate abutting part, is larger than the bottom diameter of the two adjacent abutting parts, which is far away from the partition plate abutting part.

Further, the muzzle of air gun includes baffle, first butt portion, second butt portion, third butt portion and the fourth butt portion that sets gradually along the air flow direction.

Further, drying device is still including supporting the stores pylon, it includes stores pylon and lower stores pylon to support the stores pylon, be provided with the couple on the lateral wall of last stores pylon, the lateral wall top of casing be provided with couple assorted hook groove, evenly be provided with a plurality of backup pads on the lateral wall of lower stores pylon, the backup pad is used for bearing the casing.

Further, the upper hanging rack and the lower hanging rack are respectively provided with bolt holes, and the upper hanging rack and the lower hanging rack are respectively fixed on the wall through bolts. In the equipment fixing use, pass through the bolt fastening with lower stores pylon earlier on the wall, then the hook groove at rethread casing lateral wall top cooperates with the couple of last stores pylon for the casing is hung and is established on last stores pylon, and simultaneously, the backup pad on the stores pylon can bear the weight of sharing the casing down, reduces the casing to the pressure of couple, guarantees that the casing is stably articulate on supporting the stores pylon, and it is convenient that the installation is torn open and is got, improve equipment and use convenience.

Further, the hook is an L-shaped hook.

Furthermore, the air inlet interface is externally connected with an air compressor or a compressed air source. Preferably, the compressed air source is a hospital compressed air centralized supply device. Through with the interface of admitting air and air compressor machine or compressed air source intercommunication, utilize air compressor machine or compressed air source to continue to let in compressed air to the interface of admitting air to utilize the air gun to control compressed air's circulation switch and flow, guarantee that the air flows safe, go on in order.

Further, the drying device also comprises a power line which penetrates through the shell and is connected with the controller.

The utility model has the advantages that: the utility model provides a medical instrument quick drying device can replace traditional vacuum drying cabinet, saves the resource, reduces customer use cost, can directly weather the inside and outside moisture of treating sterilization apparatus with this drying device fast after medical instrument sanitization, saves the prophase preparation required time before medical instrument gets into the sterilizer, improves drying efficiency, just the utility model discloses a drying device is small, and occupation space is little, and is with low costs, and it is convenient that the installation is torn open and is got, is applicable to various environment, has effectively widened the application scene scope of equipment.

Drawings

Fig. 1 is a schematic front perspective view of the drying device of the present invention;

fig. 2 is a schematic view of a back side three-dimensional structure of the drying device of the present invention;

fig. 3 is a side view of the drying apparatus of the present invention;

fig. 4 is a sectional view of the drying apparatus of the present invention;

FIG. 5 is a schematic view of the muzzle structure of the present invention;

in the figure, 1-shell, 2-air inlet interface, 3-air outlet structure, 4-display module, 5-human-computer interaction module, 6-heating box, 7-air inlet pipe, 8-air outlet pipe, 9-sensor unit, 10-three-way valve, 11-air gun, 12-connecting pipe, 13-muzzle, 14-upper hanger, 15-lower hanger, 16-hook, 17-hook groove, 18-support plate, 19-power line, 20-partition board, 21-first abutting part, 22-second abutting part, 23-third abutting part and 24-fourth abutting part.

Detailed Description

The technical solution of the present invention is described in further detail below with reference to the accompanying drawings, but the scope of the present invention is not limited to the following description.

As shown in fig. 1 to 5, a medical instrument rapid drying device is characterized by comprising a shell 1, the side wall of the shell 1 is respectively provided with an air inlet interface 2, an air outlet interface 3, a display module 4 and a man-machine interaction module 5, the shell 1 is internally provided with a heating box 6, an air inlet pipe 7, an air outlet pipe 8, a sensor unit 9 and a controller respectively, the two ends of the air inlet pipe 7 are respectively communicated with the inlets of the air inlet interface 2 and the heating box 6, one end of the air outlet pipe 8 is communicated with the air outlet interface 3, the other end of the air outlet pipe 8 is communicated with the outlet of the heating box 6 through a three-way valve 10, the sensor unit 9 is arranged at the third port of the three-way valve 10, and the port of the three-way valve 10 where the sensor unit 9 is located is closed, and the display module 4, the human-computer interaction module 5, the heating box 6 and the sensor unit 9 are respectively connected with the controller.

Specifically, the gas gun device further comprises a gas gun 11, wherein the gas gun 11 is communicated with the gas outlet interface 3 through a connecting pipe 12. In the using process, a user can input an operation instruction and check the working information of the equipment through the man-machine interaction module 5, and then the controller makes a corresponding response according to the operation instruction; when medical instruments are required to be dried, the air inlet interface 2 is externally connected with an air compressor or a compressed air source, the air compressor or the compressed air source continuously inputs compressed air to the air inlet interface 2, the compressed air enters the heating box 6 through the air inlet pipe 7, then the compressed air is rapidly heated to a preset temperature by the heating box 6 to form dry air, the dry air flows into the air outlet pipe 8 through the three-way valve 10 and flows to the air gun 11 through the air outlet interface 3, and the dry air is orderly sprayed to the medical instruments through the air gun 11 by controlling the opening and closing of the air gun 11 and the air flow rate to dry the medical instruments; in addition, the temperature of the drying air passing through the three-way valve 10 is detected by setting the sensor unit 9, whether the temperature of the drying air reaches a predetermined value is monitored, and when the temperature of the drying air is monitored to be lower than the predetermined value, the power of the heating box 6 is increased; when the sensor unit 9 detects that the temperature of the drying air passing through the three-way valve 10 is higher than a predetermined value, the power of the heating box 6 is reduced; and when the sensor unit 9 detects that the temperature of the drying air passing through the three-way valve 10 is higher than a limit value, the operation of the heating box 6 is stopped, and the safe operation of the apparatus is ensured.

Specifically, the air gun 11 is an air gun 11 having an airflow rate adjusting function. The flow of the dry gas sprayed out by the air gun 11 is determined according to the type of the medical appliance by controlling the on-off of the air gun 11 and adjusting the flow of the gas flow, so that the utilization rate of equipment resources is improved.

Specifically, muzzle 13 of air gun 11 includes baffle 20 and a plurality of butt portion that set gradually along the air flow direction, butt portion is truncated cone structure, and along the air flow direction, the end footpath of butt portion reduces step by step. When carrying out the drying to the lumen inside of lumen apparatus, butt portion through muzzle 13 at air gun 11 sets up a plurality of different diameters, utilize the butt portion of different diameters to deal with the not unidimensional lumen apparatus, before letting in dry gas to the lumen apparatus, insert the mouth of pipe of lumen apparatus with muzzle 13 of air gun 11, and let butt portion or baffle seal the one end mouth of pipe of lumen apparatus, then control air gun 11 switch, let in dry air to the lumen of lumen apparatus, let compressed dry air pass through the lumen fast, take away the water stain in the lumen, carry out quick drying to the lumen apparatus inside, guarantee that equipment can both carry out quick effectual drying inside and outside the lumen apparatus of different grade type and size.

Specifically, the top diameter of two adjacent abutting portions, which are close to the diaphragm abutting portion 20, is larger than the bottom diameter of the abutting portion, which is far from the diaphragm abutting portion 20.

Specifically, the muzzle 13 of the air gun 11 includes a partition plate 20, a first abutting portion 21, a second abutting portion 22, a third abutting portion 23, and a fourth abutting portion 24, which are provided in this order in the air flow direction.

Specifically, the drying device further comprises a supporting rack, the supporting rack comprises an upper rack 14 and a lower rack 15, a hook 16 is arranged on the side wall of the upper rack 14, a hook groove 17 matched with the hook 16 is formed in the top of the side wall of the shell 1, a plurality of supporting plates 18 are uniformly arranged on the side wall of the lower rack 15, and the supporting plates 18 are used for bearing the shell 1.

Specifically, the upper hanger 14 and the lower hanger 15 are respectively provided with bolt holes, and the upper hanger 14 and the lower hanger 15 are respectively fixed on the wall through bolts. In the equipment fixing use, pass through the bolt fastening with last stores pylon 14 and lower stores pylon 15 on the wall earlier, then the hook slot 17 through 1 lateral wall top of casing again cooperates with the couple 16 of last stores pylon 14, make casing 1 hang and establish on last stores pylon 14, and simultaneously, backup pad 18 on the lower stores pylon 15 can bear the weight of sharing casing 1, reduce casing 1 to the pressure of couple 16, guarantee that casing 1 stably articulates on supporting the stores pylon, it is convenient that the installation is torn open and is got, improve equipment use convenience.

Specifically, the hook 16 is an "L" shaped hook. Preferably, the heating box is a heating box QR-1500.

Specifically, the air inlet interface 2 is externally connected with an air compressor or a compressed air source. Preferably, the compressed air source is a hospital compressed air centralized supply device. Through with admit air interface 2 and air compressor machine or compressed air source intercommunication, utilize air compressor machine or compressed air source to continuously let in compressed air to the interface that admits air to utilize air gun 11 to control compressed air's circulation switch and flow, guarantee that the air flows safe, go on in order.

Specifically, the drying device further comprises a power cord 19, and the power cord 19 penetrates through the shell 1 and is connected with the controller. Preferably, the display module 4 is a display screen, the human-computer interaction module 5 is a temperature control knob, and the heating temperature of the heating box 6 to the dry air is adjusted by rotating the temperature control knob.

When the medical instrument drying device is used, after the medical instrument is cleaned, a user places the medical instrument under a gun mouth 13 of the air gun 11, the air inlet interface 2 is externally connected with an air compressor or a compressed air source, the air compressor or the compressed air source continuously inputs compressed air to the air inlet interface 2, the compressed air enters the heating box 6 through the air inlet pipe 7, then the heating box 6 is used for quickly heating the compressed air to a preset temperature to form dry air, the dry air flows into the air outlet pipe 8 through the three-way valve 10 and flows to the air gun 11 through the air outlet interface 3, and the dry air is orderly sprayed to the medical instrument through the air gun 11 by controlling the opening and closing of the air gun 11 and the air flow, so that the medical instrument is dried; when the inside of the tube cavity instrument is dried, a plurality of abutting parts with different diameters are arranged on the muzzle 13 of the air gun 11, the abutting parts with different diameters are used for dealing with the tube cavity instruments with different sizes, before dry air is introduced into the tube cavity instrument, the muzzle 13 of the air gun 11 is inserted into the tube orifice of the tube cavity instrument, the abutting parts or the partition plates are used for sealing the tube orifice at one end of the tube cavity instrument, then the air gun 11 is controlled to be opened and closed, dry air is introduced into the tube cavity of the tube cavity instrument, compressed dry air can rapidly pass through the tube cavity, water stains in the tube cavity are taken away, the inside of the tube cavity instrument is rapidly dried, and the inside and the outside of the tube cavity instrument with different types and sizes; in addition, the temperature of the drying air passing through the three-way valve 10 is detected by setting the sensor unit 9, whether the temperature of the drying air reaches a predetermined value is monitored, and when the temperature of the drying air is monitored to be lower than the predetermined value, the power of the heating box 6 is increased; when the sensor unit 9 detects that the temperature of the drying air passing through the three-way valve 10 is higher than a predetermined value, the power of the heating box 6 is reduced; and when the sensor unit 9 detects that the temperature of the drying air passing through the three-way valve 10 is higher than a limit value, the operation of the heating box 6 is stopped, and the safe operation of the apparatus is ensured.

The foregoing is illustrative of the preferred embodiments of the present invention, and it is to be understood that the invention is not limited to the precise forms disclosed herein, and that various other combinations, modifications, and environments may be resorted to, falling within the scope of the invention as defined by the appended claims. But that modifications and variations may be effected by those skilled in the art without departing from the spirit and scope of the invention, which is to be limited only by the claims appended hereto.

Claims

1. A medical instrument quick drying device which characterized in that: the gas inlet and outlet integrated device comprises a housing, be provided with the interface that admits air, give vent to anger interface, display module and human-computer interaction module on the lateral wall of casing, be provided with heating box, intake pipe, outlet duct, sensor unit and controller in the casing, the both ends of intake pipe communicate with the entry of admitting air interface, heating box respectively, the one end and the interface intercommunication of giving vent to anger of outlet duct, the other end of outlet duct passes through the export intercommunication of three-way valve and heating box, the sensor unit sets up the third port at the three-way valve, and sensor unit place port seals, display module, human-computer interaction module, heating box, sensor unit are connected with the controller respectively.

2. The medical instrument rapid drying device according to claim 1, wherein: still include the air gun, the air gun passes through the connecting pipe and gives vent to anger the interface intercommunication.

3. The medical instrument rapid drying device according to claim 2, wherein: the air gun is an air gun with an airflow flow adjusting function.

4. The medical instrument rapid drying device according to claim 2, wherein: the muzzle of air gun includes baffle and a plurality of butt portion that set gradually along the air flow direction, butt portion is truncated cone structure, and along the air flow direction, the end footpath of butt portion reduces step by step.

5. The medical instrument rapid drying device according to claim 4, wherein: the top diameter of two adjacent abutting parts, which is close to the clapboard abutting part, is larger than the bottom diameter of the abutting part, which is far away from the clapboard.

6. The medical instrument rapid drying device according to claim 5, wherein: the muzzle of air gun includes baffle, first butt portion, second butt portion, third butt portion and the fourth butt portion that sets gradually along the air flow direction.

7. The medical instrument rapid drying device according to claim 1, wherein: the drying device further comprises a supporting rack, the supporting rack comprises an upper rack and a lower rack, a hook is arranged on the side wall of the upper rack, a hook groove matched with the hook is formed in the top of the side wall of the shell, a plurality of supporting plates are evenly arranged on the side wall of the lower rack, and the supporting plates are used for bearing the shell.

8. The medical instrument rapid drying device according to claim 7, wherein: the upper hanging rack and the lower hanging rack are respectively provided with bolt holes, and the upper hanging rack and the lower hanging rack are respectively fixed on the wall through bolts.

9. The medical instrument rapid drying device according to claim 7, wherein: the hook is an L-shaped hook.

10. The medical instrument rapid drying device according to claim 1, wherein: the air inlet interface is externally connected with a compressed air source.