CN215517230U - Automatic heparin sodium precipitation control device - Google Patents

Abstract

The utility model discloses a heparin sodium automatic precipitation control device, which relates to the technical field of heparin sodium processing devices and comprises a central controller, a data memory, a first detection device, a first execution device and an alarm device, wherein the data memory, the first detection device, the first execution device and the alarm device are all connected with the central controller; the device can be through setting up first detection device, final controlling element, can be according to the capacity of waste liquid, and the action of controlling telescopic cylinder more accurately avoids the influence of human factor, reduces the time that the proofreading consumes, ensures the quality of precipitate, and through timing device's setting for the stirring of whole device, the sedimentation process is more automatic, has improved heparin sodium's preparation efficiency.

Description

Automatic heparin sodium precipitation control device

Technical Field

The utility model relates to the technical field of heparin sodium processing devices, in particular to a heparin sodium automatic precipitation control device.

Background

Heparin sodium can interfere with many links of a blood coagulation process, has an anticoagulant effect both inside and outside a body, and is required to be separated from upper-layer wastewater after a heparin sodium semi-finished product in a sedimentation tank is formed in a sedimentation process for preparing heparin sodium. The prior art uses the straw, inserts in the jar, takes waste water out, and this kind of mode causes partial heparin sodium also to be siphoned away together easily, has caused the loss of heparin sodium product, has caused the waste.

The utility model is a granted utility model with patent number CN202020065443.X, the patent name is heparin sodium precipitation separation device, including precipitation separation tank, filling tube and discharging pipe, the precipitation separation tank top is provided with a plurality of through-holes, one of which is communicated with one end of the filling tube, another through-hole is provided with a transfusion tube in a sliding manner, the horizontal end bottom of the transfusion tube is connected with the top of a vertically arranged telescopic cylinder, the telescopic cylinder is arranged at one side of the precipitation separation tank, the other end of the transfusion tube is communicated with one opening of a water pump, another opening of the water pump is connected with a discharging tube, the discharging tube is communicated with the liquid inlet of a liquid storage tank, the bottom of the liquid storage tank is provided with a liquid outlet, and the liquid outlet is connected with a discharging tube, the bottom of the precipitation separation tank is provided with a discharging port, the height of the waste liquid can be conveniently observed according to a transparent observation plate through the provided transfusion tube and the telescopic cylinder, the height of the liquid can be adjusted, and the waste water after the precipitation separation in the tank is discharged by filtering through a filter screen, so that the loss of heparin sodium in the liquid discharge process is avoided.

The above solution still has the following problems: the device is when collecting the upper waste liquid to heparin sodium, need artifically to observe through the observation window, and adjust the mode that the transfer line highly carries out the siphon, the transfer line height is adjusted by telescopic cylinder, the waste liquid level can reduce along with the continuation of siphon process, the liquid level reduces then telescopic cylinder also need reduce thereupon together, however under the thinner condition in waste liquid layer, the process of proofreading consumes time longer when artificially adjusting, it is low excessively still probably to lead to telescopic cylinder's decline position, stir the heparin sodium that the below sediment finishes, lead to the heparin sodium come-up, remix with the waste liquid, influence the precipitate and draw the effect.

SUMMERY OF THE UTILITY MODEL

The utility model aims to overcome the defects of the prior art and provides a heparin sodium automatic precipitation control device which comprises a central controller, a data memory, a first detection device, a first execution device and an alarm device, wherein the data memory, the first detection device, the first execution device and the alarm device are all connected with the central controller;

first detection device includes level sensor, image acquisition device, range finding sensor, level sensor, image acquisition device, range finding sensing all with central controller connects, actuating device includes telescopic cylinder, telescopic cylinder controller, rotation motor drive, water pump controller, telescopic cylinder with telescopic cylinder controller connects, rotate the motor with it connects to rotate motor drive, the water pump with water pump controller connects, telescopic cylinder controller, rotation motor drive, water pump controller all with central controller connects.

Preferably, the liquid level sensor is a YJWS non-contact liquid level sensor.

Preferably, the distance measuring sensor is a KGCS-018 ultrasonic distance measuring sensor.

Preferably, the image acquisition device comprises a camera, a video amplifier and an image processor, and the camera, the video amplifier, the image processor and the central controller are connected in sequence.

Preferably, still include timing device, timing device includes first time-recorder, first relay, second time-recorder, second relay, first time-recorder, first relay, second relay all with central controller is connected, first relay with rotate motor drive, first timer and be connected, the second relay with telescopic cylinder controller, second timer are connected.

Preferably, the system further comprises a second execution device, wherein the second execution device comprises a heating pipe, and the heating pipe is connected with the main control device.

Preferably, the heating device further comprises a second detection device, wherein the second detection device comprises a temperature sensor, and the temperature sensor is connected with the central controller and the heating pipe.

Preferably, the alarm device comprises a buzzer and an indicator light, and the buzzer and the indicator light are both connected with the central controller.

Preferably, the second execution device further comprises an electromagnetic valve, and the electromagnetic valve is connected with the central controller.

Preferably, the second detection device further comprises a flow sensor, and the flow sensor is connected with the central controller and the electromagnetic valve.

The beneficial technical effects of the utility model are as follows:

according to the utility model, the first detection device and the execution device are arranged, so that the action of the telescopic cylinder can be more accurately controlled according to the capacity of the waste liquid, the influence of human factors is avoided, the time consumed by calibration is reduced, the quality of precipitates is ensured, the stirring and precipitation processes of the whole device are more automatic through the arrangement of the timing device, and the preparation efficiency of the heparin sodium is improved.

Description of the drawings:

FIG. 1 is a schematic diagram of an automatic heparin sodium precipitation control device;

FIG. 2 is a schematic diagram of a second detecting device of the automatic heparin sodium precipitation controlling device;

fig. 3 shows a schematic diagram of an image acquisition device of the heparin sodium automatic precipitation control device.

Detailed Description

The technical solutions in the embodiments of the present invention are clearly and completely described below with reference to the drawings of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

As shown in fig. 1, an automatic heparin sodium precipitation control device comprises a central controller, a data memory, a first detection device, a first execution device and an alarm device, wherein the data memory, the first detection device, the first execution device and the alarm device are all connected with the central controller;

first detection device includes level sensor, image acquisition device, range finding sensor, level sensor, image acquisition device, range finding sensing all with central controller connects, actuating device includes telescopic cylinder, telescopic cylinder controller, rotation motor drive, water pump controller, telescopic cylinder with telescopic cylinder controller connects, rotate the motor with it connects to rotate motor drive, the water pump with water pump controller connects, telescopic cylinder controller, rotation motor drive, water pump controller all with central controller connects.

Specifically, the liquid level sensor is a YJWS non-contact liquid level sensor.

Specifically, the distance measuring sensor is a KGCS-018 ultrasonic distance measuring sensor.

The liquid level sensor is used for detecting the liquid level height in the precipitation separation tank, the image acquisition device is used for monitoring the image information of waste liquid and sediments at the transparent observation window, the ranging sensor is used for detecting the telescopic distance of the telescopic cylinder, the telescopic cylinder controller is used for controlling the action of the telescopic cylinder, the rotating motor driver is used for controlling the starting and stopping of the rotating motor, the water pump controller is used for controlling the action of the water pump, and the data memory is used for recording and storing pre-stored data, such as the depth of the precipitation separation tank, the image information of the waste liquid and the sediments and the like;

the central controller controls the rotating motor driver, the rotating motor is started to stir materials, the rotating motor is stopped to act to wait for the materials after stirring is finished, the liquid level sensor measures the height of waste liquid after precipitation is finished, the central controller adjusts the telescopic length of the telescopic cylinder by combining the distance measuring sensor according to the liquid level height, so that a pipeline joint can be in contact with the liquid level of the waste liquid, the water pump controller is controlled again, a water pump is started to siphon, in the siphoning process, the liquid level sensor collects the liquid level height in real time and transmits a signal to the central controller, the central controller adjusts the telescopic distance of the telescopic cylinder in real time according to received liquid level information, the length adjustment is more accurate, and the calibration process generated in manual adjustment is reduced; simultaneously image acquisition device gathers the image information of upper waste liquid and precipitate in real time, and the information transfer to central controller department that will gather, central controller compares the image information that detects with the information of prestoring, when detecting the thickness of upper waste liquid and reaching the settlement thickness, then control the water pump controller and make the water pump stop the siphon action, the action of control telescopic cylinder stop the transfer line, it is low excessively to avoid the transfer line decline position, stir the heparin sodium that the below sediment finishes, lead to the heparin sodium come-up, the quality of guarantee heparin sodium precipitate.

As shown in fig. 1, specifically, the image capturing device includes a camera, a video amplifier, and an image processor, and the camera, the video amplifier, the image processor, and the central controller are connected in sequence.

The camera is used for collecting the image information of the waste liquid and the sediment at the transparent observation window, the video amplifier is used for amplifying video signals and enhancing the brightness, the chroma and the synchronous signals of the video, and the image processor is used for converting the shot image signals into electric signals and transmitting the electric signals to the central controller.

As shown in fig. 1, the timing device further includes a timing device, the timing device includes a first timer, a first relay, a second timer, and a second relay, the first timer, the first relay, the second timer, and the second relay are all connected to the central controller, the first relay is connected to the rotating motor driver and the first timer, and the second relay is connected to the telescopic cylinder controller and the second timer.

The first timer is used for timing the stirring duration of the materials, the second timer is used for timing the precipitation duration of the materials, the central controller starts the rotating motor driver, the rotating motor is used for stirring the materials, the first timer starts timing, the first relay is started after the timing is finished, the rotating motor driver is controlled to stop acting, the second timer starts timing the precipitation time after the rotating motor stops, the central controller starts the second relay after the timing is finished, the telescopic cylinder is controlled to start acting, the timing duration of the first timer and the second timer can be set by an operator according to actual needs, the starting and stopping of components in the control device are controlled through the timing, and the automation of the device is improved.

As shown in fig. 2, the system further comprises a second execution device, wherein the second execution device comprises a heating pipe, and the heating pipe is connected with the main control unit.

The heating pipe is used for heating the precipitation separation tank, so that the reaction process of materials is accelerated, and the precipitation rate is accelerated.

As shown in fig. 2, the heating system further comprises a second detection device, wherein the second detection device comprises a temperature sensor, and the temperature sensor is connected with the central controller and the heating pipe.

The temperature sensor is used for detecting the heating temperature of the heating pipe.

As shown in fig. 2, specifically, the second actuator further includes a solenoid valve, and the solenoid valve is connected to the central controller.

The electromagnetic valve is used for controlling the on-off of the discharging pipe, and the central controller controls the electromagnetic valve to be opened so as to realize the outflow of sediments.

As shown in fig. 2, specifically, the second detection device further includes a flow sensor, and the flow sensor is connected to the central controller and the electromagnetic valve.

The flow sensor is an LDG-FMT electromagnetic flowmeter and is used for detecting the liquid flow at the electromagnetic valve and judging whether liquid leakage occurs at the electromagnetic valve.

As shown in fig. 1, specifically, the alarm device includes a buzzer and an indicator light, and both the buzzer and the indicator light are connected to the central controller.

When the first detection device and the second detection device detect abnormal values or the image acquisition device detects that the siphoning process of the waste liquid in the device is finished, the buzzer and the indicating lamp can give out sound and light alarm, and the specific mode of combined alarm of the buzzer and the indicating lamp can be matched by an operator according to actual needs.

Claims (10)

1. An automatic heparin sodium precipitation control device comprises a precipitation separation tank and a liquid conveying pipe, and is characterized by comprising a central controller, a data memory, a first detection device, a first execution device and an alarm device, wherein the data memory, the first detection device, the first execution device and the alarm device are all connected with the central controller;

first detection device includes level sensor, image acquisition device, range finding sensor, level sensor, image acquisition device, range finding sensing all with central controller connects, actuating device includes telescopic cylinder, telescopic cylinder controller, rotation motor drive, water pump controller, telescopic cylinder with telescopic cylinder controller connects, rotate the motor with it connects to rotate motor drive, the water pump with water pump controller connects, telescopic cylinder controller, rotation motor drive, water pump controller all with central controller connects.

2. The automatic heparin sodium precipitation control device according to claim 1, wherein the liquid level sensor is a YJWS non-contact liquid level sensor.

3. The automatic heparin sodium precipitation control device according to claim 1, wherein the distance measuring sensor is a KGCS-018 ultrasonic distance measuring sensor.

4. The automatic heparin sodium precipitation control device according to claim 1, wherein the image acquisition device comprises a camera, a video amplifier and an image processor, and the camera, the video amplifier, the image processor and the central controller are sequentially connected.

5. The heparin sodium automatic precipitation control device according to claim 1, further comprising a timing device, wherein the timing device comprises a first timer, a first relay, a second timer and a second relay, the first timer, the first relay, the second timer and the second relay are all connected with the central controller, the first relay is connected with the rotating motor driver and the first timer, and the second relay is connected with the telescopic cylinder controller and the second timer.

6. The automatic heparin sodium precipitation control device according to claim 1, further comprising a second execution device, wherein the second execution device comprises a heating pipe, and the heating pipe is connected with the central controller.

7. The automatic heparin sodium precipitation control device according to claim 6, further comprising a second detection device, wherein the second detection device comprises a temperature sensor, and the temperature sensor is connected with the central controller and the heating pipe.

8. The automatic heparin sodium precipitation control device according to claim 6, wherein the second execution device further comprises a solenoid valve, and the solenoid valve is connected with the central controller.

9. The automatic heparin sodium precipitation control device according to claim 7, wherein the second detection device further comprises a flow sensor, and the flow sensor is connected with the central controller and the electromagnetic valve.

10. The automatic heparin sodium precipitation control device according to claim 1, wherein the alarm device comprises a buzzer and an indicator light, and the buzzer and the indicator light are both connected with the central controller.

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