CN219538234U - Novel water flow control structure and endoscope cleaning workstation - Google Patents

Abstract

The utility model discloses a novel water flow control structure and an endoscope cleaning workstation, wherein the novel water flow control structure comprises a main body shell, a water receiving pipe and a control valve, the water receiving pipe comprises an upper water receiving pipe and a lower water receiving pipe, and the upper water receiving pipe and the lower water receiving pipe are respectively connected with a water inlet and a water outlet corresponding to the control valve; the upper end part of the upper water receiving pipe is provided with a tap joint; the upper or lower water receiving pipe is provided with a water flow sensor, and the control valve is an electromagnetic on-off water valve; the controller is embedded in the housing cavity, and the front surface of the main body housing is provided with a display screen, a water quantity control button and a switch button; this new-type rivers control structure modern design, convenient to use realize repacking scope cleaning workstation through installing in each tap of scope cleaning workstation additional to improve the convenience when medical personnel scope cleaning operation. The endoscope cleaning workstation comprises a machine table and a plurality of endoscope cleaning tanks, wherein the water tap of each endoscope cleaning tank is respectively provided with the novel water flow control structure; the endoscope cleaning workstation is novel in structural design and convenient to use.

Description

Novel water flow control structure and endoscope cleaning workstation

Technical Field

The utility model relates to the technical field of endoscope cleaning devices, in particular to a novel water flow control structure and an endoscope cleaning workstation.

Background

With the development of modern medical technology, the endoscope is used as an extension of eyes and hands of doctors, and reaches the 'no hole' boundary; by endoscopy, the following diseases can be diagnosed: 1. inflammation, ulceration, benign and malignant tumors occurring in the digestive tract (including esophagus, stomach, duodenum, small intestine and large intestine); 2. benign and malignant lesions of the hepatic, biliary and pancreatic ductwork; 3. benign and malignant lesions of the abdominal organs.

After the endoscopy is finished, medical staff needs to carry out cleaning and disinfection treatment on the used endoscope, and the specific cleaning and disinfection method comprises the following steps:

step 1, wiping and washing: after the endoscopic examination is finished, the attached mucus is wiped off by gauze, and the gauze is put into a cleaning tank for full cleaning;

step 2, washing with enzyme cleaning solution, preventing organic matters and proteins from solidifying, and avoiding blockage of water injection holes and Huang Jiejia on the surface of an endoscope;

step 3, washing: the body and the aspiration biopsy duct are scrubbed, and residual enzyme cleaning liquid is removed;

step 4, soaking and sterilizing: soaking the endoscope in the disinfection tank after cleaning;

step 5, cleaning water (pure water) washing: the body of the endoscope is thoroughly cleaned by cleaning water, and the biopsy pore canal is repeatedly sucked to remove residual disinfectant.

The patent number is: ZL202120506524.3, patent name: the utility model relates to a Chinese patent of a cleaning and sterilizing device for an endoscope, which comprises a plurality of decontamination tanks, wherein the decontamination tanks are a primary washing tank, an enzyme washing tank, a secondary washing tank, a sterilizing tank (a sterilizing rinsing tank) and a final washing tank (a final rinsing tank) in sequence from left to right; the primary washing tank is used for completing the step 1, the enzyme washing tank is used for completing the step 2, the secondary washing tank is used for completing the step 3, the disinfection tank is used for completing the step 4, and the final washing tank is used for completing the step 5; in the process of cleaning and disinfecting the endoscope by using the cleaning and disinfecting device for the endoscope, water needs to be injected into the corresponding cleaning tank by a faucet.

It should be emphasized that in the process of the actual endoscope cleaning and disinfecting process, when the medical staff sequentially cleans and disinfects each endoscope and needs to perform a plurality of operations at the same time, the following problems often exist, and in particular:

problem 1, when an endoscope is washed by enzyme cleaning solution through an enzyme cleaning tank, the concentration of the enzyme cleaning solution is incorrect due to the fact that medical staff cannot timely pay attention to the water injection quantity of the enzyme cleaning tank;

2, when the endoscope is disinfected and rinsed through the disinfection and rinsing tank, the water quantity injected into the disinfection and rinsing tank cannot be accurately controlled, so that the defect of insufficient water quantity in the disinfection and rinsing tank easily occurs, the endoscope cannot be fully soaked, and the disinfection and rinsing of the endoscope are not in place;

and 3, when the endoscope is subjected to terminal rinsing treatment through the terminal rinsing tank, the medical staff cannot timely and accurately control the pure water quantity injected into the terminal rinsing tank, so that the water injection is large and the pure water resource is wasted easily.

Disclosure of Invention

The utility model aims to provide a novel water flow control structure aiming at the defects of the prior art, which is novel in structural design and convenient to use, and the improvement of an endoscope cleaning work station is realized through each tap additionally arranged on the endoscope cleaning work station so as to improve the convenience of medical staff in the endoscope cleaning operation.

Another object of the present utility model is to provide an endoscope cleaning workstation which is novel in structural design and convenient to use, which addresses the deficiencies of the prior art.

In order to achieve the above object, the present utility model is achieved by the following technical scheme.

A novel water flow control structure comprises a main body shell, wherein a shell accommodating cavity is formed in the main body shell, and a water receiving pipe and a control valve for controlling the water flow on-off state of the water receiving pipe are arranged in the main body shell;

the water receiving pipe comprises an upper water receiving pipe with the upper end part extending to the upper end side of the main body shell and a lower water receiving pipe with the lower end part extending to the lower end side of the main body shell, wherein the lower end part of the upper water receiving pipe and the upper end part of the lower water receiving pipe respectively extend into the shell accommodating cavity, the control valve is arranged in the shell accommodating cavity, the lower end part of the upper water receiving pipe is connected with the water inlet of the control valve, and the upper end part of the lower water receiving pipe is connected with the water outlet of the control valve;

the upper end part of the upper water receiving pipe is provided with a tap joint, and when the endoscope cleaning workstation is used, the tap joint is connected with the tap water outlet end part of the endoscope cleaning workstation;

the lower end part of the upper water receiving pipe or the upper end part of the lower water receiving pipe is provided with a water flow sensor positioned in the housing cavity of the shell;

the control valve is an electromagnetic on-off water valve;

the controller is embedded in the housing cavity, the display screen, the water quantity control button and the switch button are arranged on the front surface of the main body housing, and the control valve, the water flow sensor, the display screen, the water quantity control button and the switch button are respectively and electrically connected with the controller.

And a power supply battery is embedded in the housing accommodating cavity, and the power supply battery is electrically connected with the controller.

The power supply battery is a rechargeable battery, and a charging interface is arranged on the outer surface of the main body shell and is electrically connected with the controller.

The main body shell is provided with an electric quantity indicator lamp, and the electric quantity indicator lamp is electrically connected with the controller.

The charging interface is a Type-C interface or a USB interface.

The water quantity control button comprises a water quantity increase control button and a water quantity decrease control button, and the water quantity increase control button and the water quantity decrease control button are respectively and electrically connected with the controller.

An endoscope cleaning workstation comprises an organic table and a plurality of endoscope cleaning tanks which are respectively arranged on the organic table, wherein water taps are respectively arranged on the organic table corresponding to each endoscope cleaning tank;

the endoscope cleaning tanks comprise a primary cleaning tank, an enzyme cleaning tank, a secondary cleaning tank, a disinfection rinsing tank and a final cleaning tank which are sequentially arranged;

each tap is respectively provided with the novel water flow control structure, and tap joints at the upper end parts of the upper water receiving pipes of the novel water flow control structures are respectively connected with the water outlet end parts of the corresponding taps.

Compared with the prior art, the utility model has the beneficial effects that:

1. in the use process of the novel water flow control structure, a tap connector at the upper end part of an upper water receiving pipe is connected with a water outlet end part of a tap arranged in an endoscope cleaning tank, when medical staff needs to fill water into the corresponding endoscope cleaning tank during endoscope cleaning operation, hospital staff can start a control valve through a switch button, at the moment, water flow flowing out of the tap flows down sequentially through the upper water receiving pipe, the control valve and a lower water receiving pipe, and in the process, a water flow sensor acquires water flow signals flowing through the water receiving pipe in real time and feeds the water flow signals back to a controller in real time; when the water flow value flowing out through the water receiving pipe reaches a set value, the controller controls the control valve to act and enables the control valve to be disconnected so as to ensure that water is quantitatively supplied into the endoscope cleaning tank, so that the problems of insufficient cleaning and water resource waste caused by insufficient water quantity of the endoscope cleaning tank are avoided;

2. in the use process of the novel water flow control structure, hospital personnel can adjust and control the water quantity required to be injected according to the water quantity required by the endoscope cleaning tank;

3. when water is injected into the endoscope cleaning tank through the novel water flow control structure, a real-time water quantity signal acquired by the water flow sensor is fed back to the controller, and the controller displays the water quantity value injected into the endoscope cleaning tank in real time through the display screen;

4. the novel water flow control structure has the advantages of novel structural design and convenience in use, and the modification of the endoscope cleaning workstation is realized through each tap additionally arranged on the endoscope cleaning workstation so as to improve the convenience of medical staff in the endoscope cleaning operation;

5. the endoscope cleaning workstation has the advantages of novel structural design and convenient use.

Drawings

The utility model will be further described with reference to the accompanying drawings, in which embodiments do not constitute any limitation of the utility model.

FIG. 1 is a schematic view of a novel water flow control structure of the present utility model.

Fig. 2 is a schematic view of the structure of the endoscope cleaning workstation of the present utility model.

Fig. 1 and 2 include:

1-a main body housing; 11-housing receiving cavities; 2-a control valve; 31-upper water receiving pipe; 32-a lower water receiving pipe; 4-a tap joint; 5-a water flow sensor; 6-a display screen; 7-a switch button; 81-water volume increase control button; 82-a water volume reduction control button; 9-a charging interface; 100-machine; 101-an endoscope cleaning tank; 102-a tap; 103-water flow control structure.

Detailed Description

The utility model will be described with reference to specific embodiments.

The first embodiment is shown in fig. 1, and a novel water flow control structure comprises a main body casing 1, wherein a casing accommodating cavity 11 is formed in the main body casing 1, and a water receiving pipe and a control valve 2 for controlling the water flow on-off state of the water receiving pipe are arranged in the main body casing 1.

The water receiving pipe comprises an upper water receiving pipe 31 with an upper end part extending to the upper end side of the main body shell 1 and a lower water receiving pipe 32 with a lower end part extending to the lower end side of the main body shell 1, wherein the lower end part of the upper water receiving pipe 31 and the upper end part of the lower water receiving pipe 32 respectively extend into the shell accommodating cavity 11, the control valve 2 is arranged in the shell accommodating cavity 11, the lower end part of the upper water receiving pipe 31 is connected with a water inlet of the control valve 2, and the upper end part of the lower water receiving pipe 32 is connected with a water outlet of the control valve 2.

Further, the upper end of the upper water receiving pipe 31 is provided with a tap connector 4, and when in use, the tap connector 4 is connected to the water outlet end of the tap 102 of the endoscope cleaning workstation.

Further, a water flow sensor 5 located in the housing accommodating chamber 11 is installed at the lower end portion of the upper water receiving pipe 31 or the upper end portion of the lower water receiving pipe 32.

In addition, the control valve 2 is an electromagnetic on-off water valve.

The controller is embedded in the housing accommodating cavity 11, the display screen 6, the water quantity control button and the switch button 7 are arranged on the front surface of the main body housing 1, and the control valve 2, the water flow sensor 5, the display screen 6, the water quantity control button and the switch button 7 are respectively and electrically connected with the controller. The controller may be an MCU controller or a PLC controller.

It should be explained that, the novel water flow control structure 103 of the first embodiment is used for modifying an existing endoscope cleaning workstation, and specifically, the novel water flow control structure 103 of the first embodiment is used for modifying the faucet 102 of each endoscope cleaning tank 101 of the endoscope cleaning workstation; in the process of installing the novel water flow control structure 103 of the first embodiment to the faucet 102 of the endoscope washing tank 101, the faucet connector 4 at the upper end portion of the upper water receiving pipe 31 is connected to the water outlet end portion of the faucet 102 installed to the endoscope washing tank 101.

When medical staff needs to fill water into the corresponding endoscope cleaning tank 101 during endoscope cleaning operation, hospital staff can start the control valve 2 by pressing the switch button 7 on the front surface of the main body shell 1, the control valve 2 is switched from a disconnected state to an unblocked state, at the moment, water flowing out of the faucet 102 flows down sequentially through the upper water receiving pipe 31, the control valve 2 and the lower water receiving pipe 32, and in the process, the water flow sensor 5 collects water flow signals flowing through the water receiving pipe in real time and feeds the water flow signals back to the controller in real time; when the water flow value flowing out from the water receiving pipe reaches the set value, the controller controls the control valve 2 to act and enables the control valve 2 to switch from the unblocked state to the disconnected state, and at this time, the novel water flow control structure 103 of the first embodiment stops the water discharging action to ensure the quantitative water supply into the endoscope cleaning tank 101, so as to avoid the problem of insufficient cleaning of the endoscope cleaning tank 101 caused by insufficient water quantity and the problem of water resource waste caused by excessive water quantity of the endoscope cleaning tank 101.

It should be further noted that, during the use of the novel water flow control structure 103 of the first embodiment, a hospital staff can adjust and control the amount of water discharged by the novel water flow control structure 103 of the first embodiment according to the amount of water required by the endoscope cleaning tank 101; during the regulation control, the medical staff only needs to operate the water quantity control button to regulate the set value of the water quantity required by the endoscope cleaning tank 101, and in the process, the set value is displayed through the display screen 6, so that the medical staff can conveniently and accurately know the set value of the water quantity required by the endoscope cleaning tank.

In other words, when water is injected into the endoscope cleaning tank 101 through the novel water flow control structure 103 of the first embodiment, the real-time water quantity signal obtained by the water flow sensor 5 is fed back to the controller, and the controller displays the water quantity value injected into the endoscope cleaning tank 101 in real time through the display screen 6.

It can be seen from the above-mentioned situation that, through the above-mentioned structural design, the novel water flow control structure 103 of the first embodiment has the advantages of novel structural design and convenient use, and can be retrofitted to the endoscope cleaning workstation through the water taps 102 additionally arranged on the endoscope cleaning workstation, so as to improve the convenience of medical staff during the endoscope cleaning operation.

The second embodiment differs from the first embodiment in that: a power supply battery is embedded in the housing accommodating cavity 11 and is electrically connected with the controller.

Specifically, the power supply battery is a rechargeable battery, the charging interface 9 is arranged on the outer surface of the main body shell 1, and the charging interface 9 is electrically connected with the controller. The charging interface 9 of the second embodiment may be a Type-C interface or a USB interface.

In the use process of the novel water flow control structure 103 of the second embodiment, the power supply battery is used for supplying power; when the power of the power supply battery is insufficient, the medical staff can charge the power supply battery through the charging interface 9.

Embodiment three differs from embodiment two in that: the main body shell 1 is provided with an electric quantity indicator lamp which is electrically connected with the controller.

In the use process of the novel water flow control structure 103 of the third embodiment, when the electric quantity indicator lights are on or flash, the electric quantity of the power supply battery is insufficient, and at this time, the medical staff needs to charge the power supply battery through the charging interface 9.

Through setting up electric quantity warning light structure, the new-type rivers control structure 103 of this embodiment III can conveniently point out medical personnel that power supply battery electric quantity is not enough to the convenience when improving the use.

In the fourth embodiment, as shown in fig. 1, the difference between the fourth embodiment and the first embodiment is that: the water quantity control buttons comprise a water quantity increase control button 81 and a water quantity decrease control button 82, and the water quantity increase control button 81 and the water quantity decrease control button 82 are respectively and electrically connected with the controller.

When the medical staff adjusts and controls the amount of water injected into the corresponding endoscope washing tank 101 through the water amount control button, the medical staff can increase the amount of water injected into the endoscope washing tank 101 through the water amount increase control button 81, and the medical staff can decrease the amount of water injected into the endoscope washing tank 101 through the water amount decrease control button 82.

In a fifth embodiment, an endoscope cleaning workstation includes an organic station 100 and a plurality of endoscope cleaning tanks 101 respectively installed on the machine station 100, and faucet 102 is respectively installed on the machine station 100 corresponding to each of the endoscope cleaning tanks 101.

Wherein, the endoscope washing tanks 101 include a primary washing tank, an enzyme washing tank, a secondary washing tank, a disinfection washing tank and a final washing tank which are sequentially arranged.

Further, each faucet 102 is respectively provided with the novel water flow control structure 103, and the faucet joint 4 at the upper end part of the upper water receiving pipe 31 of each novel water flow control structure 103 is respectively connected with the water outlet end part of the corresponding faucet 102.

For the endoscope cleaning work station of the fifth embodiment, since the faucet 102 of each endoscope cleaning tank 101 is respectively equipped with the above-mentioned new water flow control structure 103; as can be seen from the description of the first embodiment, in operation, each new water flow control structure 103 can control the water injection amount of the faucet 102 of the corresponding endoscope cleaning tank 101 so that the water injection amount into the corresponding endoscope cleaning tank 101 is adapted to the water required for cleaning.

Therefore, for the endoscope cleaning workstation of the fifth embodiment, the endoscope cleaning workstation has the advantages of novel structural design and convenient use.

The foregoing is merely exemplary of the present utility model, and those skilled in the art should not be considered as limiting the utility model, since modifications may be made in the specific embodiments and application scope of the utility model in light of the teachings of the present utility model.

Claims (7)

1. The novel water flow control structure comprises a main body shell (1), wherein a shell accommodating cavity (11) is formed in the main body shell (1), and a water receiving pipe and a control valve (2) for controlling the water flow on-off state of the water receiving pipe are arranged in the main body shell (1);

the water receiving pipe comprises an upper water receiving pipe (31) with the upper end part extending to the upper end side of the main body shell (1), and a lower water receiving pipe (32) with the lower end part extending to the lower end side of the main body shell (1), wherein the lower end part of the upper water receiving pipe (31) and the upper end part of the lower water receiving pipe (32) respectively extend into the shell accommodating cavity (11), the control valve (2) is arranged in the shell accommodating cavity (11), the lower end part of the upper water receiving pipe (31) is connected with the water inlet of the control valve (2), and the upper end part of the lower water receiving pipe (32) is connected with the water outlet of the control valve (2);

the method is characterized in that: the upper end part of the upper water receiving pipe (31) is provided with a tap joint (4), and when the endoscope cleaning workstation is used, the tap joint (4) is connected with the water outlet end part of a tap (102) of the endoscope cleaning workstation;

the lower end part of the upper water receiving pipe (31) or the upper end part of the lower water receiving pipe (32) is provided with a water flow sensor (5) positioned in the housing accommodating cavity (11);

the control valve (2) is an electromagnetic on-off water valve;

the controller is embedded in the housing accommodating cavity (11), the display screen (6), the water quantity control button and the switch button (7) are arranged on the front surface of the main body housing (1), and the control valve (2), the water flow sensor (5), the display screen (6), the water quantity control button and the switch button (7) are respectively and electrically connected with the controller.

2. The novel water flow control structure of claim 1, wherein: and a power supply battery is embedded in the shell accommodating cavity (11) and is electrically connected with the controller.

3. A novel water flow control structure as claimed in claim 2, wherein: the power supply battery is a rechargeable battery, a charging interface (9) is arranged on the outer surface of the main body shell (1), and the charging interface (9) is electrically connected with the controller.

4. A novel water flow control structure according to claim 3, wherein: the main body shell (1) is provided with an electric quantity indicator lamp, and the electric quantity indicator lamp is electrically connected with the controller.

5. A novel water flow control structure according to claim 3, wherein: the charging interface (9) is a Type-C interface or a USB interface.

6. The novel water flow control structure of claim 1, wherein: the water quantity control button comprises a water quantity increase control button (81) and a water quantity decrease control button (82), and the water quantity increase control button (81) and the water quantity decrease control button (82) are respectively and electrically connected with the controller.

7. An endoscope cleaning workstation comprises an organic table (100) and a plurality of endoscope cleaning tanks (101) which are respectively arranged on the organic table (100), wherein water taps (102) are respectively arranged on the organic table (100) corresponding to the endoscope cleaning tanks (101);

the endoscope cleaning tanks (101) comprise a primary cleaning tank, an enzyme cleaning tank, a secondary cleaning tank, a disinfection rinsing tank and a final cleaning tank which are sequentially arranged;

the method is characterized in that: each tap (102) is respectively provided with a novel water flow control structure (103) as claimed in any one of claims 1 to 6, and tap joints (4) at the upper end parts of the upper water receiving pipes (31) of the novel water flow control structures (103) are respectively connected with the water outlet end parts of the corresponding taps (102).