CN112845453A

CN112845453A - Double-cavity cleaning system and cleaning method thereof

Info

Publication number: CN112845453A
Application number: CN202011621633.6A
Authority: CN
Inventors: 刘导龙; 石力; 刘立新
Original assignee: NANTONG BEITE PHARMACEUTICAL MACHINERY CO Ltd
Current assignee: NANTONG BEITE PHARMACEUTICAL MACHINERY CO Ltd
Priority date: 2020-12-31
Filing date: 2020-12-31
Publication date: 2021-05-28

Abstract

The invention discloses a double-cavity cleaning system and a cleaning method. The cleaning machine sequentially comprises a first sealing door, a first cavity, a second sealing door, a second cavity, a third sealing door, a conveying line and a positioning mechanism; the first cavity is used for cleaning the container, and the second cavity is used for drying the container; the first sealing door and the second sealing door can move in a horizontal plane in the direction vertical to the conveying line; inflatable sealing rings are arranged in the edge grooves of the first sealing door and the second sealing door, and the first sealing door and the second sealing door are connected with the grooves of the door body frames of the first cavity and the second cavity through the inflatable sealing rings; the positioning mechanism comprises a positioning rod, a push-pull mechanism and a fixed seat; the fixing seat is arranged below the track, the positioning rod penetrates through the track and the fixing seat, and the bottom of the positioning rod is connected with the push-pull mechanism. The invention has the advantages of high cleaning efficiency, high reliability, low production cost and capability of avoiding cross contamination.

Description

Double-cavity cleaning system and cleaning method thereof

Technical Field

The invention relates to a double-cavity cleaning system and a cleaning method of the double-cavity cleaning system.

Background

For cleaning medical instruments and containers, most of the traditional cleaning modes are manually carried into a cleaning machine. Most of the cleaning devices are single-cavity cleaning devices, so that the labor intensity of personnel is high and the cleaning efficiency is low. And is prone to cause contamination of the forks of the area to be cleaned and the cleaned area. How to improve the cleaning efficiency, reduce manual operation, avoid cross contamination is the problem that this patent was treated and is solved.

Disclosure of Invention

The purpose of the invention is as follows: the invention aims to solve the defects in the prior art and provides a double-cavity cleaning system and a cleaning method of the double-cavity cleaning system, which are efficient, low in production cost and environment-friendly.

The technical scheme is as follows: the invention discloses a double-cavity cleaning system which sequentially comprises a first sealing door, a first cavity, a second sealing door, a second cavity, a third sealing door, a conveying line and a positioning mechanism; the conveying line comprises a bracket and a track; the track of the conveying line consists of rollers; the track is arranged on the bracket; the first cavity is used for cleaning the container, and the second cavity is used for drying the container; the first sealing door and the second sealing door can move in a horizontal plane in the direction vertical to the conveying line; inflatable sealing rings are arranged in the edge grooves of the first sealing door and the second sealing door, and the first sealing door and the second sealing door are connected with the grooves of the door body frames of the first cavity and the second cavity through the inflatable sealing rings; the positioning mechanism comprises a positioning rod, a push-pull mechanism and a fixed seat; the fixing seat is arranged below the track, the positioning rod penetrates through the track and the fixing seat, and the bottom of the positioning rod is connected with the push-pull mechanism.

The invention has the further improvement that the first sealing door and the second sealing door are respectively connected with the first cavity and the second cavity through the sliding door moving mechanism.

The invention is further improved in that the sliding door moving mechanism comprises a driving motor, a rope drum, a pull rope, a first guide wheel and a second guide wheel; the driving motor is connected with the rope drum and used for driving the rope drum to rotate, and the inhaul cable is reversely wound on the rope drum; and the inhaul cables which bypass the first guide wheel and the second guide wheel are connected with the two ends of the first sealing door and the second sealing door.

The invention has the further improvement that the bracket comprises a bracket arranged outside the first cavity and the second cavity and a bracket respectively arranged in the first cavity and the second cavity.

The invention has the further improvement that the bracket comprises a fixed bracket body and a lifting mechanism;

one end of the fixed frame body is hinged with the track, and the other end of the fixed frame body is connected with the track through the lifting mechanism; the lifting mechanism is one of an air cylinder or an electric cylinder; the lifting mechanism is fixedly connected with the fixed frame body, and a push-pull rod of the lifting mechanism is hinged with the track.

The invention has the further improvement that the lengths of the brackets at the outer sides of the first cavity and the second cavity and the rails respectively arranged in the first cavity and the second cavity are both larger than the length of the corresponding fixed frame body below.

The invention is further improved in that the push-pull mechanism is one of an air cylinder or an electric cylinder, the push-pull mechanism is horizontally arranged, and the end part of a push-pull rod of the push-pull mechanism is connected with the bottom of the positioning rod through a connecting rod.

The invention is further improved in that two ends of the connecting rod are hinged with the bottom of the positioning rod and the end of the push-pull rod of the push-pull mechanism.

The invention has the further improvement that the top of the second cavity pair is provided with an air inlet pipe and an air outlet pipe, and hot air is introduced into the air inlet pipe of the second cavity; a nozzle is arranged in the first cavity and connected with a water inlet pipe, and a water outlet pipe is arranged at the bottom of the first cavity.

A cleaning method of a double-cavity cleaning system comprises the following specific steps,

1) pushing the container into the conveying line, opening the first sealing door, and enabling the container to enter the first cavity; closing and cleaning the first sealing door, cleaning the container, and simultaneously placing the next container to be cleaned at the front end of the conveying line;

2) opening a second sealing door, enabling the cleaned container to enter a second cavity for drying, and closing the second sealing door;

3) opening the first sealing door, enabling the container to enter the first cavity, cleaning the container, and simultaneously placing the next container to be cleaned at the front end of the conveying line;

4) opening a third sealing door, and enabling the container to enter the tail end of the conveying line;

5) repeating the steps 2) to 4);

the first sealing door, the second sealing door, the third sealing door and the conveying line are controlled by a PLC (programmable logic controller); the first sealing door, the second sealing door and the third sealing door are not opened at the same time.

Compared with the prior art, the double-cavity cleaning system and the cleaning method thereof provided by the invention at least realize the following beneficial effects:

1. in the process of cleaning the container, the transferring, cleaning and drying are all automatic, the number of operators is reduced, the labor intensity of the operators is reduced, the operators do not participate in the operation in the chamber, and the safety of the operators is protected;

2. the front and rear end conveying lines can be used for temporary storage, the working procedures are prepared in advance, and the working efficiency is improved;

3. the cleaning chamber and the drying chamber operate simultaneously, and the average cleaning process time is shortened by more than half under the condition that the total time of the cleaning process of a single container is not changed, so that the working efficiency is improved, and the user income is increased;

4. the cleaning wet area is separated from the drying dry area, and the cavity does not need to be dried during drying, so that the drying process time is reduced, and the working efficiency is improved;

5. the front door, the middle door and the rear door are controlled by a program to be opened at different times, so that the area to be cleaned and the cleaned area are completely isolated, cross pollution is avoided, and the environment is protected.

Of course, it is not specifically necessary for any one product that implements the invention to achieve all of the above-described technical effects simultaneously.

Other features of the present invention and advantages thereof will become apparent from the following detailed description of exemplary embodiments thereof, which proceeds with reference to the accompanying drawings.

Drawings

The accompanying drawings, which are incorporated in and constitute a part of this specification, illustrate embodiments of the invention and together with the description, serve to explain the principles of the invention.

FIG. 1 is a schematic structural view of the present invention;

FIG. 2 is a schematic structural view of the inflatable gasket of the present invention;

FIG. 3 is a schematic structural view of the present invention;

FIG. 4 is a schematic structural diagram of the positioning mechanism of the present invention;

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

wherein, 1001-first sealing door; 1002-a second sealing door; 1003-third sealing door; 1004-inflatable sealing ring;

2001-a first cavity; 2002-a second cavity;

3000-conveying line; 3010-a stent; 3020-orbital;

4000-a positioning mechanism; 4001-a positioning rod; 4002-a push-pull mechanism; 4003-fixed base;

5030-sliding door moving mechanism; 5031-drive motor; 5032-rope drum; 5033-a pull cord; 5034-a first guide wheel; 5035-second guide wheel.

Detailed Description

Various exemplary embodiments of the present invention will now be described in detail with reference to the accompanying drawings. It should be noted that: the relative arrangement of the components and steps, the numerical expressions and numerical values set forth in these embodiments do not limit the scope of the present invention unless specifically stated otherwise.

The following description of at least one exemplary embodiment is merely illustrative in nature and is in no way intended to limit the invention, its application, or uses.

Techniques, methods, and apparatus known to those of ordinary skill in the relevant art may not be discussed in detail but are intended to be part of the specification where appropriate.

In all examples shown and discussed herein, any particular value should be construed as merely illustrative, and not limiting. Thus, other examples of the exemplary embodiments may have different values.

It should be noted that: like reference numbers and letters refer to like items in the following figures, and thus, once an item is defined in one figure, further discussion thereof is not required in subsequent figures.

In the case of the example 1, the following examples are given,

as shown in fig. 1 to 5, a dual-chamber cleaning system sequentially comprises a first sealing door 1001, a first chamber 2001, a second sealing door 1002, a second chamber 2002, a third sealing door 1003, a conveying line 3000 and a positioning mechanism 4000; the conveyor line 3000 includes a support 3010, a rail 3020; the rail 3020 of the conveyor line 3000 is composed of rollers; the track 3020 is provided on the support 3010; the first chamber 2001 is used for cleaning the container, and the second chamber 2002 is used for drying the container; the first sealing door 1001 and the second sealing door 1002 can move in a horizontal plane perpendicular to the conveying line 3000; the inflatable sealing rings 1004 are arranged in the edge grooves of the first sealing door 1001 and the second sealing door 1002, and the first sealing door 1001 and the second sealing door 1002 are connected with the grooves of the door body frames of the first cavity 2001 and the second cavity 2002 through the inflatable sealing rings 1004; the positioning mechanism 4000 comprises a positioning rod 4001, a push-pull mechanism 4002 and a fixed seat 4003; the fixing seat 4003 is arranged below the track 3020, the positioning rod 4001 penetrates through the track 3020 and the fixing seat 4003, and the bottom of the positioning rod 4001 is connected with the push-pull mechanism 4002.

In the above embodiment, as shown in fig. 2, the first sealing door 1001, the second sealing door 1002, and the third sealing door 1003 are respectively connected to the fixing frame of the door body. The top and the bottom of the fixed frame are connected with sliding rails, and the first sealing door 1001, the second sealing door 1002 and the third sealing door 1003 can move relative to the sliding rails.

Based on the above embodiment, the working principle of the dual-chamber cleaning system is as follows:

first, the container is pushed into the front end conveyor line, the first sealing door 1001 is opened, the conveyor line 3000 conveys the container 1 to the first chamber 2001 to clean the container, the first sealing door 1001 is closed, and the nozzle and the cleaning ball provided in the first chamber 2001 start to operate to perform the cleaning operation. At this time, the next 2 nd container to be cleaned can be placed into the front-end conveying line;

secondly, when the cleaning operation is finished, the second sealing door 1002 is opened, the container 1 is conveyed to the drying chamber of the second cavity 2002 by the conveying line, the second sealing door 1002 in the middle is closed, hot air transpiration moisture is introduced into an air inlet pipe arranged in the second cavity 2002, and damp and hot air is discharged by an exhaust pipe to perform the drying operation. Next, the first sealing door 1001 is opened, the transfer line transfers the second container to the cleaning chamber, the first sealing door 1001 is closed, and the nozzle and the cleaning ball provided in the first chamber 2001 of the cleaning chamber start operating to perform the cleaning operation. At this time, the next 3 rd container to be cleaned can be placed into the front-end conveying line;

then, when the drying operation is completed, the third sealing door 1003 is opened, the conveying line moves the 1 st container out of the drying chamber of the second chamber 2002, and the third sealing door 1003 is closed. The 1 st vessel is now finished with the cleaning and drying process and may be transferred to a storage room.

And (4) connecting the previous step, after the third sealing door 1003 is closed, opening the second sealing door 1002, conveying the 2 nd container to the drying chamber by the conveying line, closing the second sealing door 1002, introducing hot air transpiration moisture into an air inlet pipe arranged in the drying chamber of the second cavity 2002, and exhausting damp and hot air by an exhaust pipe to perform drying operation. Next, the first sealing door 1001 is opened, the conveyor line conveys the container 3 to the cleaning chamber, the first sealing door 1001 is closed, and the nozzle and the cleaning ball provided in the cleaning chamber of the first chamber 2001 start operating to perform the cleaning operation. At this point, the next container to be cleaned (i.e., the 4 th container) may be placed in the front-end conveyor line.

The above process is repeated, and the cleaning and drying operation can be continuously carried out.

To further explain the present embodiment, it should be noted that the first sealing door 1001 and the second sealing door 1002 are respectively connected to the first cavity 2001 and the second cavity 2002 by the sliding door moving mechanism 5030, and the third sealing door 1003 is also connected to the sliding door moving mechanism 5030. Specifically, the sliding door moving mechanism 5030 includes a driving motor 5031, a rope drum 5032, a pulling rope 5033, a first guide wheel 5034, and a second guide wheel 5035; the driving motor 5031 is connected with the rope drum 5032, the driving motor 5031 is used for driving the rope drum 5032 to rotate, and the inhaul cable 5033 is reversely wound on the rope drum 5032; a guy cable 5033 wound around the first guide wheel 5034 and the second guide wheel 5035 is connected to both ends of the first sealing door 1001 and the second sealing door 1002. According to the present embodiment, as shown in fig. 5, when the driving motor 5031 operates, the rope drum 5032 is driven to operate. The rope drum 5032 is wound with a guy cable 5033, and referring to fig. 1, according to the difference of the rotation direction of the rope drum 5032, the guy cables 5033 on the two sides of the rope drum 5032 tighten and loosen the first sealing door 1001, the second sealing door 1002 and the third sealing door 1003, and the movement stroke of the sliding door can be adjusted by increasing or decreasing the rotation number of the rope drum, so that the movement of the first sealing door 1001, the second sealing door 1002 and the third sealing door 1003 is realized. Based on this embodiment, this structure passes through rope drum, cable as power unit, simple structure, and is small, simple to operate, and the operation is nimble, only needs to increase or reduce the rope drum number of rotations, can adjust sliding door motion stroke.

To further explain the present embodiment, it should be noted that the support 3010 includes a support disposed outside the first cavity 2001 and the second cavity 2002 and a support disposed inside the first cavity 2001 and the second cavity 2002, respectively. Specifically, as shown in fig. 3, the support 3010 includes a fixing frame body 3011, an elevating mechanism 3012; one end of the fixing frame body 3011 is hinged to the rail 3020, and the other end of the fixing frame body 3011 is connected to the rail 3020 through the lifting mechanism 3012; the lifting mechanism 3012 is one of an air cylinder or an electric cylinder; the lifting mechanism 3012 is fixedly connected to the fixing frame 3011, and a push-pull rod of the lifting mechanism 3012 is hinged to the rail 3020. The lengths of the supports at the outer sides of the bottoms of the first cavity 2001 and the second cavity 2002 and the rail 3020 respectively arranged in the first cavity 2001 and the second cavity 2002 are both greater than the length of the corresponding fixing frame body 3011 below, and specifically, the length of the fixing frame body 3011 and the length of the lifting mechanism 3012 added up when the fixing frame body 3011 and the lifting mechanism 3012 are contracted are the same as the lengths of the supports in the first cavity 2001 and the second cavity 2002. In this embodiment, initially, the rail 2 is horizontal and the bottom of the container rests on the rail 2. The lifting mechanism 3 is started to lift the rail 2 on the side of the second leg 102, the container is inclined along the rail, and the container can move forward along the inclined surface under the action of gravity. The telescopic stroke of the lifting mechanism is passed by the cylinder, so that the sliding speed of the container on the rail can be effectively controlled.

The positioning mechanism 4000 comprises a positioning rod 4001, a push-pull mechanism 4002 and a fixing seat 4003. The fixing seat 4003 is arranged below the track 3020, the positioning rod 4001 penetrates through the track 3020 and the fixing seat 4003, and the bottom of the positioning rod 4001 is connected with the push-pull mechanism 4002. To further explain the embodiment, it should be noted that the push-pull mechanism 4002 is one of an air cylinder and an electric cylinder, the push-pull mechanism 4002 is horizontally disposed, and an end of a push-pull rod of the push-pull mechanism 4002 is connected to a bottom of the positioning rod 4001 through a link lever 4003. In this embodiment, specifically, both ends of the link lever 4003 are hinged to the bottom of the positioning lever 4001 and the end of the push-pull lever of the push-pull mechanism 4002. The transverse movement of the cylinder is converted into the longitudinal movement of the positioning rod through the connecting rod, so that the installation requirement on a longitudinal space is greatly reduced. The lever principle is utilized to amplify the output force of the cylinder, so that the utilization rate of the cylinder is improved; the positioning function and the telescopic function are separated, so that the anti-impact capacity of the positioning rod can be increased under the condition that the telescopic mechanism is unchanged, and the positioning effect is improved. The rubber roller is arranged at the top of the positioning rod and is a flexible piece, so that the impact time during positioning contact can be delayed, the noise is reduced, and the container can be prevented from being damaged.

To further explain the embodiment, it should be noted that the second cavity 2002 is provided with an air inlet pipe and an air outlet pipe at the top, and hot air is introduced into the air inlet pipe of the second cavity 2002; a nozzle is arranged in the first cavity 2001 and connected with a water inlet pipe, and a water outlet pipe is arranged at the bottom of the first cavity 2001.

In the case of the example 2, the following examples are given,

referring to fig. 1-5, a cleaning method of a dual chamber cleaning system comprises the following steps,

1) pushing the container into the conveyor line 3000, opening the first sealing door 1001, and the container entering the first cavity 2001; closing and cleaning the first sealing door 1001, cleaning the container, and simultaneously placing the next container to be cleaned at the front end of the conveying line 3000;

2) opening the second sealing door 1002, allowing the cleaned container to enter the second cavity 2002 for drying, and closing the second sealing door 1002;

3) opening the first sealing door 1001, enabling the container to enter the first cavity 2001, cleaning the container, and meanwhile, placing the next container to be cleaned at the front end of the conveying line 3000;

4) the third sealing door 1003 is opened and the container enters the end of the conveyor line 3000;

5) repeating the steps 2) to 4);

the operation of the first sealing door 1001, the second sealing door 1002, the third sealing door 1003 and the conveying line is controlled by a PLC; the first sealing door 1001, the second sealing door 1002 and the third sealing door 1003 are not opened at the same time.

By the embodiment, the double-cavity cleaning system and the cleaning method of the double-cavity cleaning system provided by the invention at least realize the following beneficial effects:

Although some specific embodiments of the present invention have been described in detail by way of examples, it should be understood by those skilled in the art that the above examples are for illustrative purposes only and are not intended to limit the scope of the present invention. It will be appreciated by those skilled in the art that modifications may be made to the above embodiments without departing from the scope and spirit of the invention. The scope of the invention is defined by the appended claims.

Claims

1. A dual chamber cleaning system, comprising: the device sequentially comprises a first sealing door (1001), a first cavity (2001), a second sealing door (1002), a second cavity (2002), a third sealing door (1003), a conveying line (3000) and a positioning mechanism (4000); the conveying line (3000) comprises a support (3010) and a track (3020); the rail (3020) of the conveyor line (3000) consists of rollers; the track (3020) is arranged on the bracket (3010);

the first cavity (2001) is used for cleaning the container, and the second cavity (2002) is used for drying the container;

the first sealing door (1001) and the second sealing door (1002) can move in a horizontal plane vertical to the conveying line (3000);

the inflatable sealing rings (1004) are arranged in the edge grooves of the first sealing door (1001) and the second sealing door (1002), and the first sealing door (1001) and the second sealing door (1002) are connected with the grooves of the door body frames of the first cavity (2001) and the second cavity (2002) through the inflatable sealing rings (1004);

the positioning mechanism (4000) comprises a positioning rod (4001), a push-pull mechanism (4002) and a fixed seat (4003);

the fixing seat (4003) is arranged below the track (3020), the positioning rod (4001) penetrates through the track (3020) and the fixing seat (4003), and the bottom of the positioning rod (4001) is connected with the push-pull mechanism (4002).

2. The dual chamber cleaning system of claim 1 wherein:

the first sealing door (1001) and the second sealing door (1002) are respectively connected with the first cavity (2001) and the second cavity (2002) through a sliding door moving mechanism (5030).

3. The dual chamber cleaning system of claim 2 wherein:

the sliding door moving mechanism (5030) comprises a driving motor (5031), a rope drum (5032), a guy cable (5033), a first guide wheel (5034) and a second guide wheel (5035);

the driving motor (5031) is connected with the rope drum (5032), the driving motor (5031) is used for driving the rope drum (5032) to rotate, and the inhaul cable (5033) is reversely wound on the rope drum (5032);

and a guy cable (5033) which bypasses the first guide wheel (5034) and the second guide wheel (5035) is connected with the two ends of the first sealing door (1001) and the second sealing door (1002).

4. The dual chamber cleaning system of claim 1 wherein:

the bracket (3010) comprises brackets arranged on the outer sides of the first cavity (2001) and the second cavity (2002) and brackets respectively arranged in the first cavity (2001) and the second cavity (2002).

5. The dual chamber cleaning system of claim 4 wherein:

the support (3010) comprises a fixed frame body (3011) and a lifting mechanism (3012);

one end of the fixed frame body (3011) is hinged to a track (3020), and the other end of the fixed frame body (3011) is connected with the track (3020) through a lifting mechanism (3012); the lifting mechanism (3012 is one of an air cylinder or an electric cylinder;

the lifting mechanism (3012) is fixedly connected with the fixed frame body (3011), and a push-pull rod of the lifting mechanism (3012) is hinged with the rail (3020).

6. The dual chamber cleaning system of claim 5 wherein:

the lengths of the brackets at the outer sides of the first cavity (2001) and the second cavity (2002) and the lengths of the rails (3020) respectively arranged in the first cavity (2001) and the second cavity (2002) are all larger than the length of the corresponding fixing frame body (3011) below.

7. The dual chamber cleaning system of claim 1 wherein:

the push-pull mechanism (4002) is one of an air cylinder and an electric cylinder, the push-pull mechanism (4002) is horizontally arranged, and the end part of a push-pull rod of the push-pull mechanism (4002) is connected with the bottom of the positioning rod (4001) through a connecting rod (4003).

8. The dual chamber cleaning system of claim 2 wherein:

and two ends of the connecting rod (4003) are hinged with the bottom of the positioning rod (4001) and the end part of the push-pull rod of the push-pull mechanism (4002).

9. The dual chamber cleaning system of claim 1 wherein:

an air inlet pipe and an air outlet pipe are arranged at the opposite top of the second cavity (2002), and hot air is introduced into the air inlet pipe of the second cavity (2002); a nozzle is arranged in the first cavity (2001) and connected with a water inlet pipe, and a water outlet pipe is arranged at the bottom of the first cavity (2001).

10. The cleaning method of a dual chamber cleaning system according to claim 1, wherein: the specific steps are as follows,

1) pushing the container into the conveying line (3000), opening the first sealing door (1001), and enabling the container to enter the first cavity (2001); closing and cleaning the first sealing door (1001), cleaning the container, and simultaneously placing the next container to be cleaned at the front end of the conveying line (3000);

2) opening the second sealing door (1002), allowing the cleaned container to enter the second cavity (2002) for drying, and closing the second sealing door (1002);

3) opening a first sealing door (1001), enabling the container to enter a first cavity (2001), cleaning the container, and simultaneously placing the next container to be cleaned at the front end of the conveying line (3000);

4) opening a third sealing door (1003), and enabling the container to enter the tail end of the conveying line (3000);

5) repeating the steps 2) to 4);

the first sealing door (1001), the second sealing door (1002), the third sealing door (1003) and the conveying line are controlled by a PLC in operation;

the first sealing door (1001), the second sealing door (1002) and the third sealing door (1003) are not opened at the same time.