Peristaltic pump head, liquid intelligent transmission control system and control method
阅读说明:本技术 一种蠕动泵泵头、液体智能传输控制系统及控制方法 (Peristaltic pump head, liquid intelligent transmission control system and control method ) 是由 马上 郑龙 许敏 徐美玲 张彦峰 张小伶 刘云 王瑞鹏 于 2020-08-06 设计创作,主要内容包括:本发明公开一种蠕动泵泵头、液体智能传输控制系统及控制方法,包括与泵头相连接的驱动器和管路,泵头包括壳体,压板和安装在壳体和压板间的回转体;回转体对管路形成间歇式密封挤压,即回转体在转动到一定角度时挤压使管路形成封闭负压实现传输液体,当回转体转动到另外一定角度内,可以释放管路实现液体通路;回转体与驱动器的电机相连接形成回转中心。通过将中转体设定为间歇式挤压结构,实现了蠕动泵对液体传输管路挤压动作的有效控制,且可将壳体和压板设置为一体结构,便于安装管道,增加工作效率,占用空间小、运行稳定性高,能源消耗低;还通过配合信号传感器、控制单元、驱动器和定位装置,实现了对液体输送的智能控制。(The invention discloses a peristaltic pump head, a liquid intelligent transmission control system and a control method, comprising a driver and a pipeline which are connected with the pump head, wherein the pump head comprises a shell, a pressure plate and a revolving body arranged between the shell and the pressure plate; the revolving body forms intermittent sealing extrusion on the pipeline, namely the revolving body extrudes when rotating to a certain angle to enable the pipeline to form closed negative pressure to realize liquid transmission, and when the revolving body rotates to another certain angle, the pipeline can be released to realize a liquid passage; the revolving body is connected with a motor of the driver to form a revolving center. The intermediate transfer body is set to be an intermittent extrusion structure, so that the extrusion action of the peristaltic pump on the liquid transmission pipeline is effectively controlled, the shell and the pressing plate can be set to be an integral structure, the pipeline is convenient to install, the working efficiency is improved, the occupied space is small, the operation stability is high, and the energy consumption is low; and the intelligent control of liquid delivery is realized by matching a signal sensor, a control unit, a driver and a positioning device.)
1. A peristaltic pump head comprising a drive (5) and a line (9) connected to a pump head (6), characterized in that: the pump head (6) comprises a shell, a pressure plate (11) and a revolving body (8) arranged between the shell and the pressure plate (11); the revolving body (8) forms intermittent sealing extrusion on the pipeline (9), namely the revolving body (8) extrudes when rotating to a certain angle and enables the pipeline (9) to form closed negative pressure to realize liquid transmission, and when the revolving body (8) rotates to another certain angle, the pipeline (9) can be released to realize a liquid passage; the revolving body (8) is connected with a motor of the driver (5) to form a revolving center.
2. The peristaltic pump head of claim 1, wherein: the shell is fixedly connected with the pressure plate (11) or is of an integral structure; an installation channel for accommodating the pipeline (9) is formed between the pressure plate (11) and the revolving body (8); the shell comprises a base (7) and a lower shell (14); a guide groove (17) is formed in the base (7), and the base (7) is connected with the lower shell (14) in a sliding mode through the guide groove (17); and a fixed extrusion groove for fixing the pipeline (9) is arranged at the opposite extrusion position of the base (7) and the lower shell (14).
3. The peristaltic pump head of claim 1, wherein: the revolving body (8) is of an eccentric structure, and the eccentric structure adopts an eccentric roller set; the eccentric roller group comprises at least one roller (10); the pressing surface of the pressing plate (11) relative to the revolving body (8) is an arc-shaped surface, and the arc-shaped surface is parallel to the axial lead space of the revolving body (8).
4. The peristaltic pump head of claim 1, wherein: the maximum value of the central angle of the corresponding rotation center between two adjacent extrusion points of the extrusion pipeline (9) of the revolving body (8) is larger than the central angle of the corresponding rotation center at two ends of the working area of the pressure plate (11).
5. The peristaltic pump head of claim 2, wherein: the pump head (6) is also provided with a hinge connecting rod mechanism (13) and a pin shaft (18); k-shaped grooves (19) are formed in the lower shell (14), the top and the bottom of the hinge connecting rod mechanism (13) are respectively installed in the k-shaped grooves (19), and the hinge connecting rod mechanism (13) is in clearance fit with the base (7) through a pin shaft (18).
6. The peristaltic pump head of claim 1, wherein: the outer end surface of the revolving body (8) is also provided with a revolving body outer cover (16); an umbilical platform (15) is arranged in the middle of the outer cover (16) of the revolving body in a protruding mode; the navel platform (15) is of a cylindrical structure.
7. An intelligent liquid delivery control system, comprising: -a liquid collection system, a signal sensor (2), a control unit (3), a positioning device, a driver (5), a conduit (9) and a peristaltic pump head according to any one of claims 1 to 6;
the liquid collecting system comprises a liquid collecting device (1) and a liquid collecting device (12); two ends of the pipeline (9) are respectively communicated with the liquid collector (1) and the liquid collector (12);
the positioning device is arranged at the connecting position of the shell or the revolving body (8) or the driver (9) motor and the revolving body (8), is electrically connected with the control unit (3), and is used for detecting and positioning whether the revolving body (8) runs to a preset position or not;
the signal sensor (2) is arranged at the liquid receiver (1) and is used for sending an electric signal to the control unit (3);
the control unit (3) is respectively electrically connected with the driver (5), the signal sensor (2) and the positioning device through a control circuit (4), and is used for receiving an electric signal of the signal sensor (2) and controlling the driver (5) to drive the pump head (6) to run and stop.
8. The intelligent liquid delivery control system of claim 7, wherein: the liquid level of the liquid collector (1) is always lower than that of the liquid collector (12); the positioning device is a magnetic induction positioning mechanism or a light induction positioning mechanism.
9. A liquid intelligent delivery control method for the liquid delivery intelligent controllable system as claimed in claims 7-8, characterized by comprising the steps of:
(1) the hinge connecting rod mechanism is rotated to open the lower shell, the lower shell is adjusted back after the pipeline is placed in the lower shell, and the pipeline is fixed; then the revolving body reaches a preset position;
(2) the signal sensor detects the natural pressure difference of the liquid collecting system and feeds back the natural pressure difference to the control unit;
(3) when the natural pressure difference does not meet the requirement, the control unit controls the driver to enable the revolving body to rotate, so that the pipeline is extruded, and liquid materials are conveyed from the material collector to the liquid receiver;
(4) when the natural pressure difference is satisfied, the revolving body is rotated to a position far away from the pressure plate and away from the pipeline, and the control unit controls the driver to stop operating.
10. The intelligent liquid delivery control method according to claim 9, characterized in that: in the first step, the control unit controls the driver to drive the pump head to enable the revolving body to reach a preset position, or the umbilical platform is manually rotated to enable the revolving body to reach the preset position.
Technical Field
The invention relates to the technical field of liquid conveying, in particular to a peristaltic pump head, a liquid intelligent transmission control system and a control method.
Background
In medical health, pharmacy, experimental science research, and life science research, there is a need for a delivery device that can precisely control fluids without contamination, such as blood delivery commonly used in the medical health field, to assist in the clearing of catheters when necessary. However, the common peristaltic pump works on the principle that a plurality of groups of rollers alternately extrude the liquid transmission pipeline to keep the pipeline in a sealed negative pressure state all the time, so that fluid transmission is realized. Due to the structural characteristic of the peristaltic pump, at least one roller always extrudes the conveying pipeline in a working state, so that the randomness requirement that the conventional rotary peristaltic pump cannot meet and only needs to work with the assistance of the peristaltic pump when necessary is met.
In order to solve the problems, the utility model discloses a push type peristaltic pump is disclosed in utility model patent No. CN 209164051U (a push type peristaltic pump), and its working method adopts more than three sets of upper and lower extrusion rods driven by electromagnetism or pneumatic device to complete liquid transfer, and when not needing auxiliary dredging, all extrusion rods are lifted up. However, the pressing type structure has a problem that when the first pressing rod moves downwards, the liquid in the conduit inevitably flows back to affect the effect of the precipitation liquid; the peristaltic extrusion is completed by adopting more than three sets of devices, so that the structure is complex, the occupied space is large, the implementation cost is high, the liquid flow pulsation is large, the energy consumption is high, and the flow rate and the time of the conveyed liquid are not controllable; once one of the electromagnetic driving devices fails, the whole set of equipment cannot work normally.
In order to solve the problems of complex structure, large occupied space, high implementation cost and large liquid flow pulsation in the conventional peristaltic pump in the application, the invention provides a peristaltic pump head, a liquid intelligent transmission control system and a control method.
Disclosure of Invention
The invention aims to provide a peristaltic pump, a liquid intelligent transmission control system and a control method, which are used for solving the problems in the prior art and have the advantages of simple structure, small occupied space, low implementation cost, high operation stability and low energy consumption.
In order to achieve the purpose, the invention provides the following scheme: a peristaltic pump head, includes driver and the pipeline that is connected with the pump head, its characterized in that: the pump head comprises a shell, a pressure plate and a revolving body arranged between the shell and the pressure plate; the revolving body forms intermittent sealing extrusion on the pipeline, namely the revolving body extrudes when rotating to a certain angle to enable the pipeline to form closed negative pressure to realize liquid transmission, and when the revolving body rotates to another certain angle, the pipeline can be released to realize a liquid passage; the revolving body is connected with a motor of the driver to form a revolving center.
The shell and the pressure plate are fixedly connected or are of an integral structure; an installation channel for accommodating the pipeline is formed between the pressure plate and the revolving body; the shell comprises a base and a lower shell; the base is provided with a guide groove, and the base is connected with the lower shell in a sliding manner through the guide groove; and a fixed extrusion groove, such as a u-shaped extrusion groove, for fixing the pipeline is arranged at the opposite extrusion position of the lower shell and the pressure plate.
Preferably, most peristaltic pumps in the prior art are of split type assembly structures, but due to the special eccentric structure revolving body, an installation channel for installing the pipeline can be formed between the pressure plate and the revolving body, so that the pipeline can be directly installed in the installation channel, the distance between the pressure plate and the revolving body does not need to be adjusted when the pipeline is installed, and the working efficiency is greatly improved.
The revolving body extrudes that the central angle between two adjacent extrusion points of the pipeline corresponding to the revolving center is fixed and the maximum value is larger than the central angle of the revolving center corresponding to the two ends of the working area of the pressure plate.
Furthermore, the revolving body at least comprises 1 extrusion point of the extrusion pipeline.
Furthermore, the revolving body can perform intermittent sealing extrusion on the pipeline, can extrude the hose to form closed negative pressure to realize liquid transmission when rotating to a certain angle, and can release the pipeline to realize a liquid passage when rotating to another certain angle; the pipeline can be switched between free and closed.
Furthermore, the motor of the driver can be one of a direct current motor, an alternating current motor, a stepping motor or a servo motor; the pipeline material is one of silicon rubber, fluororubber, Teflon, rubber, plastics and synthetic materials.
The revolving body is of an eccentric structure, and the eccentric structure adopts an eccentric roller set; the eccentric roller group comprises at least one roller; the rollers rotate around the same circle center.
Furthermore, the revolving body can also adopt an eccentric wheel, and the eccentric wheel and the eccentric roller set both realize the effective control of the peristaltic pump on the extrusion action of the liquid transmission pipeline, thereby breaking through the basic common knowledge of the prior peristaltic pump for transmitting liquid.
And preferably, all the siphon process technologies in the prior art adopt piano type peristaltic pumps. Compared with the prior art, the peristaltic pump device provided by the invention has the advantages of simple structure, small occupied space, low implementation cost, high operation stability and low energy consumption, and is more suitable for the randomness auxiliary transmission requirement of the siphon equipment cryoprecipitation process.
The pump head is also provided with a hinge connecting rod mechanism and a pin shaft; the lower shell is further provided with a k-shaped groove, the top and the bottom of the hinge connecting rod mechanism are respectively arranged in the k-shaped groove, and the hinge connecting rod mechanism is in clearance fit with the base through a pin shaft.
The pressing surface of the pressing plate, which is opposite to the revolving body, is an arc-shaped surface, and the arc-shaped surface is parallel to the axial lead space of the revolving body.
Furthermore, the rollers rotate around the same circle center, the rotating radius is the same, and the rollers are matched with the pressing plate, so that when the rollers and the pressing plate extrude the pipeline, negative pressure applied to the pipeline is changed, and the pipeline is not controlled well.
The outer end face of the revolving body is also provided with a revolving body outer cover; an umbilical platform is arranged on the outer cover of the revolving body in a protruding and upward manner; the navel platform is cylindrical structure.
Furthermore, as a spare arrangement, when unpredictable accidents happen to the electric control adjustment, the position of the revolving body can be manually adjusted through the umbilical table.
An intelligent liquid delivery control system, comprising: the device comprises a liquid collecting system, a signal sensor, a control unit, a positioning device, a driver, a pipeline and a peristaltic pump head;
the liquid collecting system comprises a liquid collector and a liquid collector; two ends of the pipeline are respectively communicated with the liquid collector and the liquid collector;
the positioning device is arranged at the connecting position of the shell or the revolving body or the driver motor and the revolving body, is electrically connected with the control unit and is used for detecting and positioning whether the revolving body runs to a preset position or not;
the signal sensor is arranged at the liquid receiver and used for detecting the hydraulic pressure difference of the liquid collecting system and sending an electric signal to the control unit;
the control unit is respectively electrically connected with the driver, the signal sensor and the positioning device, and is used for receiving the electric signal of the signal sensor and controlling the driver to drive the pump head to run and stop.
The liquid level of the liquid collector is always lower than that of the liquid collector.
The positioning device is a magnetic induction positioning mechanism or a light induction positioning mechanism.
Preferably, when the positioning device adopts a magnetic induction mechanism, a Hall sensor or a coded disc device or a magnetic inductor and magnetic steel can be specifically adopted, and the magnetic inductor is electrically connected with the control unit and can detect the rotation of the magnetic steel; when the light sensing mechanism is adopted, an infrared sensing device can be specifically adopted.
An intelligent liquid conveying control method comprises the following steps:
(1) the hinge connecting rod mechanism is rotated to open the lower shell, the lower shell is adjusted back after the pipeline is placed in the lower shell, and the pipeline is fixed; then the revolving body reaches a preset position;
(2) the signal sensor detects the natural pressure difference of the liquid collecting system and feeds back the natural pressure difference to the control unit;
(3) when the natural pressure difference is not satisfied, the control unit controls the driver to drive the revolving body to rotate, and meanwhile, the revolving body extrudes the pipeline to convey the liquid material from the material collector to the liquid receiver;
(4) when the natural pressure difference is satisfied, the revolving body is rotated to a position far away from the pressure plate and away from the pipeline, and the control unit controls the driver to stop operating.
In the first step, the control unit controls the driver to drive the pump head to enable the revolving body to reach a preset position, and the spare umbilical table can be used for manual adjustment to enable the revolving body to reach the preset position.
The invention discloses the following technical effects: the revolution body is set to be an intermittent extrusion structure, so that the effective control of the peristaltic pump on the extrusion action of the liquid transmission pipeline is realized, the basic common knowledge of the existing peristaltic pump for transmitting liquid is broken, and the shell and the pressing plate can be set to be an integrated structure, so that the pipeline is convenient to install, and the working efficiency is increased; the intelligent control of liquid delivery is realized by matching with a signal sensor, a control unit, a driver and a positioning device; the invention has simple structure, small occupied space, low implementation cost, high operation stability and low energy consumption, and is more suitable for the randomness auxiliary transmission requirement of the cold precipitation process of siphon equipment.
Drawings
In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings needed to be used in the embodiments will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and it is obvious for those skilled in the art to obtain other drawings without inventive exercise.
FIG. 1 is a schematic diagram of an intelligent fluid delivery system of the present invention;
FIG. 2 is a schematic view of a pump head of the peristaltic pump in a relaxed state;
FIG. 3 is a schematic view of the pump head of the peristaltic pump illustrating the pipeline in a compressed state;
FIG. 4 is a partial cross-sectional view taken at the location of FIG. 2B-B;
FIG. 5 is a schematic diagram of the pump head and the actuator of the peristaltic pump of the present invention;
FIG. 6 is a partial cross-sectional view of a pump head hinge link opening and closing mechanism A-A of the peristaltic pump of the present invention;
FIG. 7 is a state diagram of the hinge of the peristaltic pump head of the present invention when closed;
FIG. 8 is a state diagram of the hinge of the peristaltic pump head of the present invention when open;
FIG. 9 is a schematic diagram of the eccentric structure of the pump head revolving body of the peristaltic pump.
The device comprises a
Detailed Description
The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments 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.
In order to make the aforementioned objects, features and advantages of the present invention comprehensible, embodiments accompanied with figures are described in further detail below.
The invention provides a peristaltic pump head, which comprises a
The shell is fixedly connected with the
The revolving
The revolving
The
The pressing surface of the
The outer end surface of the revolving
A liquid intelligent delivery control system comprising: the device comprises a liquid collecting system, a
the liquid collecting system comprises a
the positioning device is arranged at the connecting position of the shell or the revolving
the
the
The liquid level of the
the positioning device is a magnetic induction positioning mechanism or a light induction positioning mechanism.
An intelligent liquid conveying control method comprises the following steps:
(1) the hinge connecting rod mechanism is rotated to open the lower shell, the lower shell is adjusted back after the pipeline is placed in the lower shell, and the pipeline is fixed; then the revolving body reaches a preset position;
(2) the signal sensor detects the natural pressure difference of the liquid collecting system and feeds back the natural pressure difference to the control unit;
(3) when the natural pressure difference is not satisfied, the control unit controls the driver to drive the revolving body to rotate, and meanwhile, the revolving body extrudes the pipeline to convey the liquid material from the material collector to the liquid receiver;
(4) when the natural pressure difference is satisfied, the revolving body is rotated to a position far away from the pressure plate and away from the pipeline, and the control unit controls the driver to stop operating.
In the first step, the control unit controls the driver to drive the pump head to enable the revolving body to reach a preset position, and the spare umbilical table can be used for manual adjustment to enable the revolving body to reach the preset position.
Preferably, the
In one embodiment of the present invention, the eccentric roller set is two
The control steps of the intelligent liquid conveying control method are as follows: the self-priming process is that the motor of the
as shown in fig. 5, the
When the self-suction quantity is insufficient, the
The
The
in response to the detection and feedback of the pressure signal of the
when the natural pressure difference meets the requirement, the
and when the natural pressure difference does not meet the requirement, the
The rotating speed is changed according to the input signal, the revolving
The invention discloses the following technical effects: the revolution body is set to be an intermittent extrusion structure, so that the effective control of the peristaltic pump on the extrusion action of the liquid transmission pipeline is realized, the basic common knowledge of the existing peristaltic pump for transmitting liquid is broken, and the shell and the pressing plate can be set to be an integrated structure, so that the pipeline is convenient to install, and the working efficiency is increased; the intelligent control of liquid delivery is realized by matching with a signal sensor, a control unit, a driver and a positioning device; the invention has simple structure, small occupied space, low implementation cost, high operation stability and low energy consumption, and is more suitable for the randomness auxiliary transmission requirement of the cold precipitation process of siphon equipment.
In the description of the present invention, it is to be understood that the terms "longitudinal", "lateral", "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", and the like, indicate orientations or positional relationships based on those shown in the drawings, are merely for convenience of description of the present invention, and do not indicate or imply that the referenced devices or elements must have a particular orientation, be constructed and operated in a particular orientation, and thus, are not to be construed as limiting the present invention.
The above-described embodiments are merely illustrative of the preferred embodiments of the present invention, and do not limit the scope of the present invention, and various modifications and improvements of the technical solutions of the present invention can be made by those skilled in the art without departing from the spirit of the present invention, and the technical solutions of the present invention are within the scope of the present invention defined by the claims.
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