CN220970208U - Ophthalmic class A lumen batch cleaning and drying device and system thereof - Google Patents

Abstract

The utility model provides an ophthalmic class A tube cavity batch cleaning and drying device, wherein a shell cavity of a device shell is divided into an upper cavity and a lower cavity by a partition plate, the front surface of the device shell is provided with an upper cavity plug communicated with the upper cavity and a lower cavity plug communicated with the lower cavity, and the back surface of the device shell is provided with a first joint and a second joint communicated with the upper cavity, and a third joint and a fourth joint communicated with the lower cavity. The ophthalmic class A lumen batch cleaning and drying system adopts the device, the first joint is connected with a water outlet pipe, and the water outlet pipe is provided with a water outlet valve; the second connector is connected with an upper cavity air inlet pipe, and an upper cavity air inlet valve is arranged on the upper cavity air inlet pipe; the third joint is connected with a water inlet pipe, and a water inlet valve is arranged on the water inlet pipe; the fourth joint is connected with a lower cavity air inlet pipe air inlet main pipe, and a branch tee joint and an air inlet main valve are arranged on the air inlet main pipe. The utility model utilizes 2 isolated channels to realize the simultaneous execution of positive pressure cleaning and negative pressure cleaning, and has the characteristics of easy operation, high cleaning efficiency and clean.

Description

Ophthalmic class A lumen batch cleaning and drying device and system thereof

Technical Field

The utility model relates to the technical field of medical equipment and instruments, in particular to an ophthalmic A-type lumen batch cleaning and drying device and a system using the device.

Background

The chinese patent with application number 202022876462.3 discloses a simple and easy ophthalmology class a lumen batch cleaning drying device, and one side wall of its device casing communicates there is a plurality of tubular plugs, and another lateral wall communicates there is water inlet joint, air inlet joint and water outlet joint. When the device is used, a plurality of ophthalmic A-type tube cavities are placed in a cleaning pool, one ends of the ophthalmic A-type tube cavities are inserted on tubular plugs of a device shell in a one-to-one correspondence manner and are communicated with the tubular plugs, then a cleaning mode is selected according to the working fluid direction of the to-be-cleaned A-type tube cavities when the to-be-cleaned A-type tube cavities are used, and the working fluid direction of the ophthalmic A-type tube cavities when the to-be-cleaned A-type tube cavities are used is generally consistent with the cleaning fluid direction when the ophthalmic A-type tube cavities are cleaned as a selection principle, and positive pressure cleaning is carried out by a water inlet joint or negative pressure cleaning is carried out by a water outlet joint. And after the cleaning is finished, the air inlet connector is communicated with a high-pressure air source to dry the cleaned ophthalmic A-class tube cavity, so that the batch cleaning and drying of the ophthalmic A-class tube cavity are finished. The device simple structure, easy operation, but can only select positive pressure to wash and can only select negative pressure to wash when wasing, wait to wash when A class lumen has different working solution flows to, can not wash simultaneously, and when waiting to wash A class lumen quantity less, have different working solution flows to again, separate washing is unavoidable inefficiency, and the inner chamber bottom has ponding, and half pipelines of lower row blow not to dry, and the deposit that the negative pressure suction comes up is deposited in the lumen and is had sanitary dead angle, consequently, need improve.

Disclosure of Invention

The utility model aims to provide an ophthalmic class A lumen batch cleaning and drying device which realizes 2 isolated channels through an upper cavity and a lower cavity which are arranged separately; the ophthalmic A-type lumen batch cleaning and drying system has the advantages that the ophthalmic A-type lumen batch cleaning and drying device is adopted, positive pressure cleaning and negative pressure cleaning are simultaneously carried out by utilizing the 2 isolated channels, the technical purpose that cleaning can be simultaneously carried out when different working fluid flows exist in the to-be-cleaned A-type lumen is achieved, and the ophthalmic A-type lumen batch cleaning and drying device has the characteristics of easiness in operation, high cleaning efficiency and cleanliness.

The aim of the utility model can be achieved by the following technical scheme:

The utility model provides an ophthalmology A class lumen washs drying device in batches, its characterized in that includes the device casing, have shell cavity and the baffle of arranging in shell cavity middle part in the device casing, the baffle separates the shell cavity into upper chamber and lower chamber, has a plurality of evenly distributed's tubular plug on the front of device casing, and the upper chamber of a part tubular plug intercommunication device casing is as upper chamber plug, and the lower chamber of remaining tubular plug intercommunication device casing is as lower chamber plug, has first joint and the second joint of intercommunication upper chamber on the back of device casing, and has the third joint and the fourth joint of intercommunication lower chamber.

In an optimized scheme, the bottom of the device shell is provided with an upper cavity drain pipe communicated with an upper cavity of the device shell and a lower cavity drain pipe communicated with a lower cavity of the device shell, and the upper cavity drain pipe and the lower cavity drain pipe are respectively provided with a sealing piece. The sealing piece can be in a pipe plug or pipe valve structure, and also can be a sealing rubber pipe in the utility model.

Further, the upper cavity drain pipes comprise 2 upper cavity drain pipes, 1 sealing rubber pipe is adopted as a sealing piece, and two ports of the sealing rubber pipe are respectively sleeved on the 2 upper cavity drain pipes to seal the upper cavity drain pipes.

Further, the number of the lower cavity drain pipes is 2, another 1 sealing rubber pipe is adopted as a sealing piece, and two ports of the sealing rubber pipe are respectively sleeved on the 2 lower cavity drain pipes to seal the lower cavity drain pipes.

According to the optimization scheme, two ends of the device shell are further provided with 1 or more end holes respectively, a part of the end holes are arranged corresponding to an upper cavity of the device shell, the rest of the end holes are arranged corresponding to a lower cavity of the device shell, and each end hole is provided with a plugging piece. The plugging piece can adopt elastic plug structures such as rubber plugs and the like, and also can adopt a threaded plug structure in the utility model.

Further, the end hole is a threaded hole, a plugging plug of a threaded plug structure is used as a plugging piece, and the plugging plug is in threaded connection with the end hole to plug the end hole.

According to the optimization scheme, 2 ears which are symmetrically arranged are further arranged at two ends of the upper portion of the device shell.

According to the optimization scheme, the device shell is of a transversely arranged strip-shaped shell structure.

An ophthalmic class a lumen batch cleaning and drying system, characterized in that: the ophthalmic class A lumen batch cleaning and drying device is adopted, wherein a first connector is connected with a water outlet pipe in a device shell, and the water outlet pipe is provided with a water outlet valve; the second connector is connected with an upper cavity air inlet pipe, and an upper cavity air inlet valve is arranged on the upper cavity air inlet pipe; the third joint is connected with a water inlet pipe, and a water inlet valve is arranged on the water inlet pipe; the fourth joint is connected with an air inlet main pipe, an air inlet main valve is arranged on the air inlet main pipe, and the tail end of the air inlet pipe of the upper cavity is connected between the fourth joint and the air inlet main valve.

According to the optimal scheme, the tail end of the water outlet pipe is communicated to the negative pressure water storage tank.

The utility model has the following substantial characteristics and progress: the utility model forms a communicated upper cavity channel by the upper cavity of the device shell, the upper cavity plug, the first connector and the second connector which are communicated with the upper cavity, thereby realizing negative pressure cleaning and air supply drying after the negative pressure cleaning; the lower cavity of the device shell, a lower cavity plug communicated with the lower cavity, a third joint and a fourth joint form a communicated lower cavity channel, so that positive pressure cleaning and air supply drying after positive pressure cleaning are realized; the upper cavity channel and the lower cavity channel are communicated or are not connected in series by controlling the upper cavity air inlet valve and the air inlet main valve, so that a plurality of class A tube cavities to be cleaned, which have different working fluid flow directions, can be subjected to group synchronous cleaning or batch cleaning in the same cleaning direction, the batch cleaning efficiency is effectively improved, and the device has the characteristics of easiness in operation, high cleaning efficiency and cleanliness.

Drawings

Fig. 1 and 2 are schematic structural views of an ophthalmic class a lumen batch cleaning and drying device of the present utility model.

Fig. 3 is a schematic view showing a partial structure (in use state) of the ophthalmic class a lumen batch cleaning and drying device of the present utility model.

Fig. 4 and 5 are schematic views (sectional views) showing the internal structure of the ophthalmic class a lumen batch cleaning and drying device of the present utility model.

FIG. 6 is a schematic structural diagram of an ophthalmic class A lumen batch cleaning and drying system of the present utility model.

Detailed Description

The utility model is further described below with reference to the accompanying drawings.

Examples

Referring to fig. 1 to 5, an ophthalmic class a lumen batch cleaning and drying device includes a device housing 1.

The device shell 1 is of a transversely arranged strip-shaped shell structure, a shell cavity and a partition plate 11 arranged in the middle of the shell cavity, and the partition plate 11 divides the shell cavity into an upper cavity 12 and a lower cavity 13.

The front side of the device housing 1 is provided with a plurality of uniformly distributed tubular plugs, a part of the tubular plugs are communicated with the upper cavity 12 of the device housing 1 to serve as upper cavity plugs 14, and the rest of the tubular plugs are communicated with the lower cavity 13 of the device housing 1 to serve as lower cavity plugs 15.

The device housing 1 has on its back surface a first joint 21 and a second joint 22 communicating with the upper chamber 12, and a third joint 23 and a fourth joint 24 communicating with the lower chamber 13.

The bottom of the apparatus case 1 has 2 upper chamber drain pipes 121 communicating with the upper chamber 12 of the apparatus case 1, and 2 lower chamber drain pipes 131 communicating with the lower chamber 13 of the apparatus case 1. The upper chamber drain pipe 121 and the lower chamber drain pipe 131 are respectively provided with a sealing rubber pipe 3, specifically: two ports of the 1 sealing rubber tube 3 are respectively sleeved on the 2 upper cavity drain pipes 121 to realize sealing of the upper cavity drain pipes 121; and two ends of the other 1 sealing rubber tube 3 are respectively sleeved on the 2 lower cavity drain pipes 131 to realize sealing of the lower cavity drain pipes 131.

The device housing 1 has 2 end holes 10 at each end, each end hole 10 being provided with a plug 4. On the same end of the device housing 1, one end hole 10 is arranged corresponding to the upper cavity 12 of the device housing 1 and the other end hole 10 is arranged corresponding to the lower cavity 13 of the device housing 1. In this embodiment, the end hole 10 is a threaded hole, and the plugging plug 4 is of a threaded plug structure and is threadably connected to the end hole 10 to plug the end hole 10.

The device housing 1 also has 2 ears 16 symmetrically disposed at both ends of the upper portion.

Referring to fig. 6, an ophthalmic class a lumen batch cleaning and drying system employs the ophthalmic class a lumen batch cleaning and drying apparatus of the present embodiment.

In the device shell 1, a first joint 21 is connected with a water outlet pipe 5, a water outlet valve 51 is arranged on the water outlet pipe 5, and the tail end of the water outlet pipe 5 is communicated with a negative pressure water storage tank 9. The second joint 22 is connected with an upper cavity air inlet pipe 6, and an upper cavity air inlet valve 61 is arranged on the upper cavity air inlet pipe 6; the third joint 23 is connected with a water inlet pipe 7, and a water inlet valve 71 is arranged on the water inlet pipe 7; the fourth joint 24 is connected with an air inlet main pipe 8, an air inlet main valve 81 is arranged on the air inlet main pipe 8, and the tail end of the upper cavity air inlet pipe 6 is connected between the fourth joint 24 and the air inlet main valve 81.

When in use, the ophthalmic A-type lumen batch cleaning and drying device is placed on a cleaning pool in a medical room, and then the ophthalmic A-type lumen batch cleaning and drying system is adopted for connection.

Before use, the water outlet valve 51, the upper cavity air inlet valve 61, the water inlet valve 71 and the air inlet main valve 81 in the ophthalmic class A pipe cavity batch cleaning and drying system are all closed, the upper cavity water outlet pipe 121 and the lower cavity water outlet pipe 131 are respectively closed by the sealing rubber pipe 3, the end hole 10 is blocked by the blocking plug 4, and 2 lugs 16 of the device shell 1 are respectively lapped on two sides of the top end of the cleaning pool so that the device shell 1 is transversely placed on the cleaning pool.

A plurality of ophthalmic A-type tube cavities to be cleaned are placed in a cleaning pool, and one ends of the ophthalmic A-type tube cavities are inserted on tubular plugs of the device shell 1 in a one-to-one correspondence manner and are communicated with the tubular plugs. And selecting positive pressure cleaning or negative pressure cleaning according to the working fluid flow direction of the A-type lumen to be cleaned when in use. The positive pressure cleaning is required and the type a lumen to be cleaned is communicated with the lower lumen plug 15. The lumen of class a to be cleaned is communicated with the upper lumen plug 14 requiring negative pressure cleaning. The method comprises the following steps:

During positive pressure cleaning, the tail end of the water inlet pipe 7 connected with the third connector 23 of the device shell 1 is communicated with positive pressure cleaning liquid such as tap water or distilled water mixed with the cleaning agent, the water inlet valve 71 is opened, the cleaning liquid, the water inlet pipe 7, the third connector 23, the lower cavity 13 of the device shell 1, the lower cavity plug 15, the ophthalmic A-type tube cavity to be cleaned is cleaned, and the cleaned liquid flows into the cleaning pool from the tail end of the A-type tube cavity. After the positive pressure cleaning is completed, the water inlet valve 71 is closed, the sealing rubber tube 3 on the lower cavity drain pipe 131 is removed to be opened, and the residual cleaning liquid in the lower cavity 13 of the device housing 1 is discharged from the lower cavity drain pipe 131. And then, the air inlet main pipe 8 connected with the fourth connector 24 is communicated with a high-pressure air source such as a fan and the like, the air inlet main valve 81 is opened, and the cleaned ophthalmic A-type tube cavity is subjected to air supply drying, so that the ophthalmic A-type tube cavity is cleaned and dried in batches.

During negative pressure cleaning, a proper amount of cleaning liquid can be placed in the cleaning pool, and the cleaning liquid can be continuously introduced, so that all or at least the tail end of the A-class pipe cavity to be cleaned is immersed in the cleaning liquid, a water outlet valve 51 on a water outlet pipe 5 is opened, the cleaning liquid, the ophthalmic A-class pipe cavity to be cleaned, an upper cavity plug 14, the upper cavity 12 of a device shell 1, a first connector 21, the water outlet pipe 5 and a negative pressure water storage tank 9 are connected, water pressure is generated through the negative pressure water storage tank 9, and the cleaned liquid is collected. After the negative pressure cleaning is completed, the water outlet valve 51 is closed, the sealing rubber tube 3 on the upper chamber drain pipe 121 is removed to be opened, and the residual cleaning liquid in the upper chamber 12 of the device housing 1 is discharged. And then, the upper cavity air inlet pipe 6 connected with the second connector 22 is communicated with a high-pressure air source such as a fan and the like, the air inlet main valve 81 and the upper cavity air inlet valve 61 are opened, and air supply drying is carried out on the cleaned ophthalmic A-type pipe cavity, so that batch cleaning and drying of the ophthalmic A-type pipe cavity are completed. The high-pressure air source after the negative pressure cleaning and the high-pressure air source after the positive pressure cleaning can adopt the same air source.

After the use is completed, the plugging plug 4 on the device shell 1 is taken down, the device shell 1 is placed in a drying box for drying after being cleaned by an ultrasonic cleaner, and the opened end hole 10 is beneficial to cleaning sediment in a double-layer inner cavity and accelerating air flow, so that the cleaning and drying efficiency of the inner cavity of the device shell 1 can be effectively improved.

The utility model forms a communicated upper cavity channel by the upper cavity 12 of the device shell 1, the upper cavity plug 14 communicated with the upper cavity 12, the first connector 21 and the second connector 22, and realizes negative pressure cleaning and air supply drying after the negative pressure cleaning. The lower cavity 13 of the device shell 1, the lower cavity plug 15, the third connector 23 and the fourth connector 24 which are communicated with the lower cavity 13 form a communicated lower cavity channel, and positive pressure cleaning and air supply drying after positive pressure cleaning are realized. The upper cavity channel and the lower cavity channel are isolated by the partition plate 11, and the upper cavity air inlet valves 61 are closed and cannot be mutually connected in series to cause interference, so that the utility model can carry out grouping synchronous cleaning on a plurality of A-type tube cavities to be cleaned, which have different working fluid flow directions, effectively improves batch cleaning efficiency and has the characteristics of easy operation, high cleaning efficiency and clean cleaning.

The utility model forms a communicated upper cavity channel by the upper cavity 12 of the device shell 1, the upper cavity plug 14 communicated with the upper cavity 12, the first connector 21 and the second connector 22, and realizes negative pressure cleaning and air supply drying after the negative pressure cleaning. The lower cavity 13 of the device shell 1, the lower cavity plug 15, the third connector 23 and the fourth connector 24 which are communicated with the lower cavity 13 form a communicated lower cavity channel, and positive pressure cleaning and air supply drying after positive pressure cleaning are realized. The upper cavity channel and the lower cavity channel are isolated by the partition plate 11, and the upper cavity is communicated with the lower cavity when the air inlet main valve 81 is closed and the upper cavity air inlet valve 61 is opened, so that the utility model can select all positive pressure or all negative pressure cleaning according to the quantity of the type A pipe cavities to be cleaned, effectively improves the batch cleaning efficiency, and has the characteristics of easy operation, high cleaning efficiency and clean.

Claims (10)

1. The utility model provides an ophthalmology class A lumen washs drying device in batches, its characterized in that includes device housing (1), have shell cavity and baffle (11) at the middle part of arranging in shell cavity in device housing (1), baffle (11) divide into upper chamber (12) and lower chamber (13) with the shell cavity, have a plurality of evenly distributed's tubular plug on the front of device housing (1), upper chamber (12) of a part tubular plug intercommunication device housing (1) are as upper chamber plug (14), lower chamber (13) of remaining tubular plug intercommunication device housing (1) are as lower chamber plug (15), have first joint (21) and second joint (22) of intercommunication upper chamber (12) on the back of device housing (1), and have third joint (23) and fourth joint (24) of intercommunication lower chamber (13).

2. The ophthalmic class a lumen batch cleaning and drying device of claim 1, wherein: the bottom of the device housing (1) is provided with an upper cavity drain pipe (121) communicated with an upper cavity (12) of the device housing (1) and a lower cavity drain pipe (131) communicated with a lower cavity (13) of the device housing (1), and the upper cavity drain pipe (121) and the lower cavity drain pipe (131) are respectively provided with a sealing piece.

3. The ophthalmic class a lumen batch cleaning and drying device of claim 2, wherein: the upper cavity drain pipes (121) comprise 2 upper cavity drain pipes (121), 1 sealing rubber pipe (3) is adopted as a sealing piece, and two ports of the sealing rubber pipe are respectively sleeved on the 2 upper cavity drain pipes (121) to seal the upper cavity drain pipes (121).

4. The ophthalmic class a lumen batch cleaning and drying device of claim 2, wherein: the lower cavity drain pipes (131) comprise 2 sealing rubber pipes (3), wherein the other 1 sealing rubber pipe is used as a sealing piece, and two ports of the sealing rubber pipe are respectively sleeved on the 2 lower cavity drain pipes (131) to seal the lower cavity drain pipes (131).

5. An ophthalmic class a lumen batch washer-dryer apparatus as claimed in claim 1 or 2 or 3 or 4, wherein: the two ends of the device shell (1) are also respectively provided with 1 or more end holes (10), one part of the end holes (10) are arranged corresponding to the upper cavity (12) of the device shell (1), the rest of the end holes (10) are arranged corresponding to the lower cavity (13) of the device shell (1), and each end hole (10) is provided with a plugging piece.

6. The ophthalmic class a lumen batch washer-dryer of claim 5, wherein: the end hole (10) is a threaded hole, a sealing plug (4) with a threaded plug structure is used as a sealing piece, and the sealing plug (4) is in threaded connection with the end hole (10) to seal the end hole (10).

7. An ophthalmic class a lumen batch washer-dryer apparatus as claimed in claim 1 or 2 or 3 or 4 or 6, wherein: two ends of the upper part of the device shell (1) are also provided with 2 ears (16) which are symmetrically arranged.

8. An ophthalmic class a lumen batch washer-dryer apparatus as claimed in claim 1 or 2 or 3 or 4 or 6, wherein: the device shell (1) is of a strip-shaped shell structure which is transversely arranged.

9. An ophthalmic class a lumen batch cleaning and drying system, characterized in that: the ophthalmic class A lumen batch cleaning and drying device is characterized in that the ophthalmic class A lumen batch cleaning and drying device is adopted, wherein a water outlet pipe (5) is connected to a first connector (21) in a device shell (1), and a water outlet valve (51) is arranged on the water outlet pipe (5); the second connector (22) is connected with an upper cavity air inlet pipe (6), and an upper cavity air inlet valve (61) is arranged on the upper cavity air inlet pipe (6); the third joint (23) is connected with a water inlet pipe (7), and a water inlet valve (71) is arranged on the water inlet pipe (7); the fourth joint (24) is connected with an air inlet main pipe (8), an air inlet main valve (81) is arranged on the air inlet main pipe (8), and the tail end of the upper cavity air inlet pipe (6) is connected between the fourth joint (24) and the air inlet main valve (81).

10. The ophthalmic class a lumen batch cleaning and drying system of claim 9, wherein: the tail end of the water outlet pipe (5) is communicated with a negative pressure water storage tank (9).