CN111696658B - Injection pump control method, device, computer equipment and storage medium - Google Patents

Abstract

The application relates to a syringe pump control method, a device, a computer device and a storage medium. The method comprises the following steps: acquiring a syringe pump identifier corresponding to a syringe pump to be controlled; displaying operation attributes corresponding to the syringe pump identification through an operation control interface; when receiving an attribute configuration operation acting on the operation control interface, determining an operation attribute parameter corresponding to the operation attribute according to the attribute configuration operation; obtaining a standard instruction corresponding to the injection pump to be controlled from an instruction library; generating an operation control instruction according to the operation attribute parameter and the standard instruction, and controlling the injection pump to be controlled to execute corresponding operation according to the operation attribute parameter through the operation control instruction. The method can effectively improve the control efficiency of the injection pump.

Description

Injection pump control method, device, computer equipment and storage medium

Technical Field

The present disclosure relates to the field of computer technologies, and in particular, to a method and apparatus for controlling an injection pump, a computer device, and a storage medium.

Background

The injection pump is an instrument composed of a stepping motor, a driver of the stepping motor, a screw rod, a bracket and the like, and has wide application in the medical field and the industrial field. The nut in the injection pump can be connected with the piston of the injector, and the injector is driven by the injection pump to carry out high-precision, stable and pulsation-free liquid transmission, so that automatic injection of medical liquid or industrial liquid is realized.

The control personnel can control the syringe pump through an operation interface of the syringe pump. However, the conventional operation interface is complicated, and when there are many syringe pumps used, it is necessary to switch back and forth between a plurality of syringe pumps, resulting in a decrease in the control efficiency of the syringe pumps.

Disclosure of Invention

In view of the foregoing, it is desirable to provide a syringe pump control method, apparatus, computer device, and storage medium that can improve the control efficiency of a syringe pump.

A method of syringe pump control, the method comprising:

acquiring a syringe pump identifier corresponding to a syringe pump to be controlled;

displaying operation attributes corresponding to the syringe pump identification through an operation control interface;

when receiving an attribute configuration operation acting on the operation control interface, determining an operation attribute parameter corresponding to the operation attribute according to the attribute configuration operation;

obtaining a standard instruction corresponding to the injection pump to be controlled from an instruction library;

generating an operation control instruction according to the operation attribute parameter and the standard instruction, and controlling the injection pump to be controlled to execute corresponding operation according to the operation attribute parameter through the operation control instruction.

In one embodiment, the displaying, by the operation control interface, the operation attribute corresponding to the syringe pump identification includes:

acquiring the type of the injection pump corresponding to the injection pump to be controlled according to the injection pump identifier;

determining at least one corresponding operation type according to the type of the injection pump;

and acquiring operation attributes corresponding to the operation types and current attribute parameters corresponding to the operation attributes, and displaying the operation attributes and the current attribute parameters through an operation control interface.

In one embodiment, the operation control interface includes an attribute configuration control corresponding to the operation attribute;

when receiving an attribute configuration operation acting on the operation control interface, determining an operation attribute parameter corresponding to the operation attribute according to the attribute configuration operation comprises:

when the attribute configuration control comprises a rotation control, receiving rotation operation for triggering the rotation control, and determining operation attribute parameters corresponding to the operation attributes according to the rotation operation;

and when the attribute configuration control comprises a sliding control, receiving a sliding operation for triggering the sliding control, and determining an operation attribute parameter corresponding to the operation attribute according to the sliding operation.

In one embodiment, the displaying, by the operation control interface, the operation attribute corresponding to the syringe pump identification includes:

displaying a plurality of syringe pump inlets through the operation control interface displaying the operation attribute corresponding to the first syringe pump identifier;

determining a triggered injection pump inlet in a plurality of injection pump inlets, and marking an injection pump identifier corresponding to the triggered injection pump inlet as a second injection pump identifier;

and switching the operation attribute corresponding to the second syringe pump identifier to display on the operation control interface.

In one embodiment, the obtaining the standard instruction corresponding to the injection pump to be controlled from the instruction library includes:

acquiring a plurality of preset instructions from the instruction library, and generating test instructions according to the preset instructions;

the test instructions are sent to the injection pump to be controlled one by one, and a test result returned by the injection pump to be controlled based on the test instructions is received;

and determining a standard instruction corresponding to the injection pump to be controlled from a plurality of preset instructions according to the test result.

In one embodiment, after the operation attribute parameter corresponding to the operation attribute is determined according to the attribute configuration operation, the method further includes:

Generating a verification parameter according to the operation attribute;

generating a check instruction according to the check parameter, controlling the injection pump to be controlled to execute corresponding operation according to the check parameter through the check instruction, and receiving an operation result returned by the injection pump to be controlled;

determining an error value corresponding to the injection pump to be controlled according to the verification parameter and the operation result;

and compensating the operation attribute parameters according to the error value to obtain target operation parameters.

A syringe pump control device, the device comprising:

the attribute display module is used for acquiring the syringe pump identification corresponding to the syringe pump to be controlled; displaying operation attributes corresponding to the syringe pump identification through an operation control interface;

the parameter determining module is used for determining operation attribute parameters corresponding to the operation attributes according to the attribute configuration operation when the attribute configuration operation acting on the operation control interface is received;

the injection pump control module is used for acquiring standard instructions corresponding to the injection pump to be controlled from the instruction library; generating an operation control instruction according to the operation attribute parameter and the standard instruction, and controlling the injection pump to be controlled to execute corresponding operation according to the operation attribute parameter through the operation control instruction.

In one embodiment, the attribute display module is further configured to obtain a syringe pump type corresponding to the syringe pump to be controlled according to the syringe pump identifier; determining at least one corresponding operation type according to the type of the injection pump; and acquiring operation attributes corresponding to the operation types and current attribute parameters corresponding to the operation attributes, and displaying the operation attributes and the current attribute parameters through an operation control interface.

A computer device comprising a memory storing a computer program and a processor implementing the steps of the above described syringe pump control method when the computer program is executed.

A computer readable storage medium having stored thereon a computer program which when executed by a processor performs the steps of the above described syringe pump control method.

According to the injection pump control method, the injection pump control device, the computer equipment and the storage medium, the operation attribute corresponding to the injection pump identification is displayed in the operation control interface by acquiring the injection pump identification corresponding to the injection pump to be controlled, so that a user can clearly and quickly check and configure the operation attribute of the injection pump to be controlled through the operation control interface. When the attribute configuration operation acting on the operation control interface is received, the operation attribute parameters corresponding to the operation attributes are determined according to the attribute configuration operation, so that the operation attribute parameters corresponding to the operation attributes are rapidly configured. The standard instruction corresponding to the injection pump to be controlled is obtained from the instruction library, the operation control instruction is generated according to the operation attribute parameter and the standard instruction, the operation control instruction is used for controlling the injection pump to be controlled to execute corresponding operation according to the operation attribute parameter, the control of a plurality of injection pumps to be controlled is realized, and the control efficiency of the injection pumps is effectively improved.

Drawings

FIG. 1 is a diagram of an application environment of a method of controlling a syringe pump according to an embodiment;

FIG. 2 is a flow chart of a method of controlling a syringe pump according to one embodiment;

FIG. 3 is a schematic diagram of an interface showing operational attributes corresponding to syringe pump identification through an operational control interface in one embodiment;

FIG. 4 is a flowchart illustrating steps for displaying an operational attribute corresponding to a syringe pump identification through an operational control interface in one embodiment;

FIG. 5 is a schematic diagram of an interface showing operational attributes corresponding to syringe pump identification through an operational control interface in another embodiment;

FIG. 6 is a flowchart illustrating steps for displaying operation attributes corresponding to a syringe pump identification through an operation control interface according to another embodiment;

FIG. 7 is a block diagram of a syringe pump control device according to one embodiment;

fig. 8 is an internal structural diagram of a computer device in one embodiment.

Detailed Description

In order to make the objects, technical solutions and advantages of the present application more apparent, the present application will be further described in detail with reference to the accompanying drawings and examples. It should be understood that the specific embodiments described herein are for purposes of illustration only and are not intended to limit the present application.

The injection pump control method provided by the application can be applied to an application environment shown in fig. 1. Wherein the terminal 102 may establish a connection with the syringe pump 104 to be controlled, thereby communicating with the syringe pump 104 to be controlled. A wired connection or a wireless connection may be established between the terminal 102 and the syringe pump 104 to be controlled. The terminal 102 may obtain a syringe pump identifier corresponding to the syringe pump to be controlled, and display an operation attribute corresponding to the syringe pump identifier through an operation control interface corresponding to the terminal 102. When receiving the attribute configuration operation acting on the operation control interface, the terminal 102 determines an operation attribute parameter corresponding to the operation attribute according to the attribute configuration operation. The terminal 102 obtains a standard instruction corresponding to the syringe pump 104 to be controlled from the instruction library, and generates an operation control instruction according to the operation attribute parameter and the standard instruction. The terminal 102 may control the syringe pump 104 to be controlled to perform a corresponding operation according to the operation attribute parameter through the operation control instruction. The terminal 102 may be, but is not limited to, various personal computers, notebook computers, smart phones, tablet computers, and portable wearable devices, among others. The syringe pump 104 to be controlled is composed of a stepping motor and a driver thereof, a screw rod, a bracket and the like, and is a mechanical device for realizing high-precision, stable and pulsation-free liquid transmission. The syringe pump to be controlled may specifically include, but is not limited to, a medical syringe pump, an industrial syringe pump, a microinjection pump, a peristaltic pump, and the like.

In one embodiment, as shown in fig. 2, there is provided a method for controlling a syringe pump, which is described by taking an example that the method is applied to the terminal in fig. 1, and includes the following steps:

step 202, obtaining a syringe pump identifier corresponding to a syringe pump to be controlled.

The injection pump is a mechanical device which is composed of a stepping motor, a driver of the stepping motor, a screw rod, a bracket and the like and is used for realizing high-precision and stable pulsation-free liquid transmission operation. The terminal can establish a communication link with the injection pump in a wired connection mode or a wireless connection mode, so that the communication link is communicated with the injection pump, and the injection pump is controlled to execute the operation corresponding to the actual application requirement. The user can connect the terminal and the port corresponding to the syringe pump through coaxial cable, twisted pair or optical fiber, and the wired connection between the terminal and the syringe pump is established. The user may specifically refer to a control person or a staff member who controls the syringe pump through the terminal. The terminal can also establish communication connection with the syringe pump through wireless technologies such as wireless local area network, mobile network or short-range wireless technology.

The syringe pump to be controlled refers to a syringe pump that needs to be controlled so as to perform a corresponding operation. The syringe pump to be controlled may refer to all syringe pumps connected to the terminal, and the terminal may record the syringe pump having established the communication connection as the syringe pump to be controlled, and control the syringe pump to be controlled by communicating with the syringe pump to be controlled. The syringe pump to be controlled can also refer to a syringe pump selected by a user from a plurality of connected syringe pumps through a terminal, and the selected syringe pump is controlled to execute liquid transmission operation according to the actual application requirement.

The terminal can acquire the syringe pump identification corresponding to the syringe pump to be controlled, and determine the syringe pump to be controlled so as to control the syringe pumps corresponding to the syringe pump identifications in series or in parallel. Specifically, when the syringe pump to be controlled is a syringe pump connected with the terminal, the terminal may obtain syringe pump identifiers corresponding to all connected syringe pumps. When the to-be-controlled injection pump is the injection pump selected from the plurality of connected injection pumps, the terminal can display the plurality of connected injection pumps through the display interface corresponding to the terminal, determine that the user selects the to-be-controlled injection pump to be controlled from the plurality of connected injection pumps, and acquire the injection pump identification corresponding to the selected to-be-controlled injection pump. The syringe pump identification refers to identification information for uniquely marking the syringe pump, and the syringe pump identification can be one or a combination of a plurality of types of identification information corresponding to the syringe pump. The plural kinds may represent two or more kinds. The syringe pump identification may specifically be one or a combination of a plurality of names, numbers or port numbers corresponding to the syringe pumps. The number corresponding to the syringe pump may include numbers, letters, symbols, or the like. For example, for direct, simple marking of the syringe pump to be controlled, the syringe pump identification may be denoted "pump 0", "pump 1", "pump 2", and "pump 3", respectively, etc.

And 204, displaying operation attributes corresponding to the syringe pump identification through an operation control interface.

The operation control interface is an interface which is displayed through a display interface corresponding to the terminal and used for controlling the operation of the injection pump. The operation attribute refers to an attribute corresponding to an operation performed by the syringe pump. The syringe pump may perform liquid transfer by driving a piston of the syringe, and the syringe pump may particularly perform at least one of a pumping operation, a discharging operation, a circulating operation, and the like. The operation attribute corresponding to the syringe pump identification may specifically include at least one of a pumping speed, a pumping volume, a discharge speed, a number of cycles, and the like, corresponding to the operation. The terminal can acquire the operation attribute corresponding to the injection pump to be controlled according to the injection pump identification, and display the operation attribute corresponding to the injection pump identification through the operation control interface.

The operation control interface may specifically be a user interface corresponding to a syringe pump control application. The terminal may be installed on an operating system and run a syringe pump control application, which refers to an application program for controlling a syringe pump. The syringe pump control Application may specifically be APP (Application), WEB Application (World Wide WEB), or applet (Mini Program), etc. When the injection pump is controlled according to the actual demand, the terminal can display the operation attribute corresponding to the injection pump identifier through the operation control interface corresponding to the running injection pump control application, so that a user can quickly check and configure the operation attributes of a plurality of injection pumps directly through the operation control interface, and the efficiency of checking and configuring the operation attributes is effectively improved.

For example, as shown in fig. 3, fig. 3 is an interface diagram showing operation attributes corresponding to the syringe pump identification through the operation control interface in one embodiment. The operation control interface may simultaneously present respective operation attributes including a plurality of syringe pump identifications. In the operational control interface shown in FIG. 3, the circled syringe pump identification 302 is denoted "Pump 0". The syringe pump identification in fig. 3 also includes "pump 1", "pump 2", and "pump 3". The operational attributes 304 corresponding to "pump 0" may include pumping speed, purge speed, pumping volume, and number of cycles. In the operation control interface shown in fig. 3, the operation properties corresponding to the plurality of syringe pumps are identical, and in other embodiments, the operation properties corresponding to the plurality of syringe pumps may be different.

Step 206, when receiving the attribute configuration operation acting on the operation control interface, determining the operation attribute parameters corresponding to the operation attributes according to the attribute configuration operation.

The attribute configuration operation is an operation performed by a user to configure the operation attribute. The user can perform attribute configuration operation through the operation control interface according to actual application requirements, so that a plurality of operation attributes corresponding to the injection pump to be controlled are configured.

Specifically, the terminal may receive an attribute configuration operation applied by a user to the operation control interface, where the attribute configuration operation may be respectively specific to different operation attributes, and the terminal may determine an operation attribute parameter corresponding to the operation attribute according to the received attribute configuration operation. The attribute configuration operation may specifically be a touch operation, a cursor operation, a key operation, or a voice operation. The touch operation may be a touch click operation, a touch press operation, or a touch slide operation, and the touch operation may be a single touch operation or a multi-touch operation. The cursor operation may be an operation of controlling the cursor to click or an operation of controlling the cursor to press. The key operation may be a virtual key operation or a physical key operation, etc. For example, in the operation control interface as shown in fig. 3, the terminal may receive a key operation acting on an input box presented in the operation control interface, and determine an operation attribute parameter input from the input box according to the key operation.

Step 208, obtaining a standard instruction corresponding to the injection pump to be controlled from the instruction library.

The instruction library refers to an instruction set comprising a plurality of preset instructions. The corresponding control instructions may be different for different manufacturers or different types of syringe pumps. In order to adapt to different syringe pumps, control instructions corresponding to various syringe pumps can be obtained in advance, and the control instructions obtained in advance can be recorded as preset instructions. The same syringe pump can correspond to a plurality of preset instructions based on different types of operation control. For example, the preset instructions may include an operation execution instruction, an operation stop instruction, an initialization instruction, and the like. It will be appreciated that the instruction set to which the instruction library corresponds includes a plurality of instruction subsets corresponding to different syringe pumps. Each instruction subset corresponds to a controllable syringe pump, and the instruction subset comprises preset instructions of the syringe pump corresponding to a plurality of control types. In one embodiment, different syringe pumps may be controlled based on preset instructions in the same subset of instructions. For example, the preset instructions corresponding to the syringe pumps of the same manufacturer may be identical, and different syringe pumps belonging to the same manufacturer correspond to the same subset of instructions.

The instruction library can be stored in the memory of the terminal after being preset, so that the terminal can call the instructions in the instruction library from the memory to control the injection pump. The instruction library can also be stored in a corresponding server database, and the terminal can upload an instruction acquisition request carrying the syringe pump identifier to the server according to the syringe pump identifier corresponding to the syringe pump to be controlled, and receive a preset instruction corresponding to the syringe pump identifier returned by the server. The terminal can record a preset instruction corresponding to the injection pump to be controlled as a standard instruction. By acquiring standard instructions corresponding to the injection pump to be controlled from the instruction library, the injection pumps of different types or different factories can be uniformly controlled through the operation control interface, so that the control compatibility and universality of the injection pump are effectively improved, and the control efficiency of the injection pump is improved.

In one embodiment, the terminal may obtain, from the instruction library, an instruction subset corresponding to the syringe pump to be controlled, where the instruction subset includes preset instructions for performing different types of control on the syringe pump to be controlled. The terminal can record the preset instructions corresponding to the control types in the instruction subset as standard instructions according to actual control requirements. For example, when the terminal determines that the user needs to perform control of an operation on the syringe pump to be controlled according to the operation control interface, the terminal may record the operation execution instruction in the instruction subset as a standard instruction. It can be understood that after the terminal obtains the instruction subset from the instruction library, the standard instruction can be directly determined from the obtained instruction subset in the subsequent control process, and the standard instruction is not required to be obtained from the instruction library, so that the instruction obtaining process is simplified, and the obtaining efficiency of the standard instruction is improved.

Step 210, generating an operation control instruction according to the operation attribute parameter and the standard instruction, and controlling the injection pump to be controlled to execute corresponding operation according to the operation attribute parameter through the operation control instruction.

The terminal may generate an operation control instruction according to the operation attribute parameter and a standard instruction, and the standard instruction may be an operation execution instruction. In one embodiment, when the terminal needs to perform operation execution control or initialization control on the injection pump to be controlled, the terminal can directly generate an operation control instruction according to an operation stop instruction or an initialization instruction corresponding to the injection pump to be controlled, and operation attribute parameters do not need to be combined.

Specifically, the standard instruction can be used as a standard instruction template conforming to an instruction rule, and the terminal can replace parameters in the standard instruction according to the operation attribute parameters to generate an operation control instruction corresponding to the injection pump to be controlled. The terminal can send an operation control instruction to the injection pump to be controlled according to the communication connection between the terminal and the injection pump to be controlled, so that the injection pump to be controlled executes the operation corresponding to the operation control instruction according to the operation attribute parameter.

In this embodiment, by acquiring the syringe pump identifier corresponding to the syringe pump to be controlled, the operation attribute corresponding to the syringe pump identifier is displayed in the operation control interface, so that the user can clearly and quickly view and configure the operation attribute of the syringe pump to be controlled through the operation control interface. When receiving the attribute configuration operation acting on the operation control interface, determining the operation attribute parameters corresponding to the operation attributes according to the attribute configuration operation, and realizing the rapid configuration of the operation attribute parameters corresponding to the operation attributes through the clear and concise operation control interface. By acquiring the standard instruction corresponding to the injection pump to be controlled from the instruction library and generating the operation control instruction according to the operation attribute parameter and the standard instruction, different injection pumps to be controlled are controlled, and the compatibility and universality of injection pump control are improved. The injection pump to be controlled is controlled by the operation control instruction to execute corresponding operation according to the operation attribute parameters, so that the injection pumps to be controlled are controlled by the unified operation control interface, and the control efficiency of the injection pump is effectively improved.

In one embodiment, as shown in fig. 4, the step of displaying, through the operation control interface, the operation attribute corresponding to the syringe pump identifier includes:

step 402, obtaining the type of the injection pump corresponding to the injection pump to be controlled according to the injection pump identification.

At step 404, a corresponding at least one type of operation is determined based on the syringe pump type.

Step 406, obtaining the operation attribute corresponding to each operation type and the current attribute parameter corresponding to the operation attribute, and displaying the operation attribute and the current attribute parameter through the operation control interface.

After the terminal obtains the syringe pump identifier corresponding to the syringe pump to be controlled, the terminal can obtain the syringe pump type corresponding to the syringe pump to be controlled according to the syringe pump identifier. The syringe pump type may be used to indicate the type of syringe pump to be controlled. The syringe pumps may be classified into various types based on different fluid transfer operations that the syringe pump may perform, and may specifically include, but are not limited to, single push type syringe pumps, push-pull type syringe pumps, bi-directional push-pull type syringe pumps, and the like. The terminal can acquire the type of the injection pump corresponding to the injection pump to be controlled according to the injection pump information corresponding to the injection pump identification.

The operations that different types of syringe pumps can perform may be different. For example, for a single push syringe pump, the operations that can be performed include a expelling operation. For push-pull syringe pumps, the operations that can be performed may include pumping operations, expelling operations, cycling operations, and the like. For a two-way push-pull syringe pump, operations that can be performed include a left pumping operation, a left discharging operation, a cycling operation, and the like. Based on the operation that the syringe pump can perform, an operation type corresponding to the operation that the syringe pump can perform may be preset. The terminal may determine at least one operation type corresponding to the syringe pump to be controlled according to the syringe pump type corresponding to the syringe pump to be controlled, where the operation type may represent an operation that the syringe pump to be controlled can perform.

The terminal can acquire the operation attribute corresponding to each operation type of the injection pump to be controlled and the current attribute parameter corresponding to the operation attribute. The operation attribute refers to an attribute of an operation corresponding to the operation type. The operation attributes corresponding to the operation types may be preset, and one operation type may correspond to one or more operation attributes. For example, the operation attributes corresponding to the extraction operation may specifically include an extraction speed, an extraction volume, and the like. The terminal can acquire at least one operation attribute corresponding to the preset operation type and a current attribute parameter corresponding to the operation attribute. The current attribute parameter refers to an operation attribute parameter corresponding to an operation currently being performed by the syringe pump to be controlled. The terminal can perform association display on the operation attribute and the corresponding current attribute parameters through the operation control interface.

In one embodiment, when the syringe pump to be controlled is not currently operated, the current attribute parameter may be a historical attribute parameter corresponding to the operation attribute. When the operation attribute is not configured in the history period, the current attribute parameter corresponding to the operation attribute may default to 0.

In this embodiment, a syringe pump type corresponding to a syringe pump to be controlled is obtained according to a syringe pump identifier, and at least one operation type corresponding to the syringe pump type is determined, so that an operation attribute corresponding to the operation type and a current attribute parameter corresponding to the operation attribute are obtained, and the operation attribute and the current attribute parameter are displayed in an associated manner through an operation control interface. The operation attribute and the current attribute parameter displayed in the operation control interface are corresponding to the injection pump to be controlled, and different injection pumps can correspondingly display different operation attributes, so that the accuracy of displaying the operation attribute corresponding to the injection pump identification is effectively improved.

In one embodiment, the operation control interface may provide an attribute configuration control corresponding to the operation attribute, and the terminal may receive an attribute configuration operation corresponding to the attribute configuration control and configured to trigger the attribute configuration control, so as to determine an operation attribute parameter corresponding to the operation attribute according to the attribute configuration operation. Wherein the attribute configuration operation corresponds to a control type of the attribute configuration control. The operations control interface may provide a variety of different types of attribute configuration controls. The attribute configuration control provided by the operation control interface may specifically include, but is not limited to, at least one of a single click control, a double click control, a rotation control, a slide control, and the like.

When the attribute configuration control includes a rotation control, the terminal may receive a rotation operation for triggering the rotation control, and the rotation operation may specifically be a touch rotation operation or a cursor rotation operation. Specifically, the terminal can drive the rotation control to synchronously rotate according to the received rotation operation, and the rotation angle corresponding to the rotation control is determined according to the rotation operation. The terminal can acquire the mapping relation between the rotation angle and the attribute parameters, and the mapping relation between the rotation angle and the attribute parameters can be preset according to actual application requirements. The terminal can determine the attribute parameters corresponding to the rotation angle of the rotation control according to the mapping relation between the rotation angle and the attribute parameters, so as to obtain the operation attribute parameters of the operation attribute corresponding to the rotation control.

When the attribute configuration control includes a sliding control, the terminal may receive a sliding operation for triggering the sliding control, which may specifically be a touch sliding operation or a cursor sliding operation, corresponding to the rotating control. Specifically, the terminal can drive the sliding control to synchronously slide according to the received sliding operation, and the sliding distance corresponding to the sliding control is determined according to the sliding operation. The terminal can acquire the mapping relation between the sliding distance and the attribute parameters, and the mapping relation between the sliding distance and the attribute parameters can be preset according to actual application requirements. The terminal can determine the attribute parameters corresponding to the sliding distance of the sliding control according to the mapping relation between the sliding distance and the attribute parameters, so as to obtain the operation attribute parameters of the operation attributes corresponding to the sliding control.

For example, as shown in fig. 5, fig. 5 is an interface schematic diagram showing operation attributes corresponding to the syringe pump identification through the operation control interface in another embodiment. The operation control interface shown in fig. 5 further provides attribute configuration controls corresponding to the operation attributes, where the attribute configuration controls are circled in fig. 5, and specifically include a rotation control 502 corresponding to the extraction speed and the discharge speed, a sliding control 504 corresponding to the extraction volume and the number of cycles, and a click control 506 corresponding to the extraction speed, the discharge speed, the extraction volume and the number of cycles. The terminal may receive an attribute configuration operation acting on the attribute configuration control, and determine an operation attribute parameter corresponding to the operation attribute according to the attribute configuration operation.

In this embodiment, an attribute configuration control corresponding to an operation attribute is provided in an operation control interface, an attribute configuration operation corresponding to a type of the attribute configuration control is received, an operation attribute parameter corresponding to the operation attribute is determined by triggering the attribute configuration operation of the attribute configuration control, and the attribute configuration control can include a rotating control and a sliding control, so that multiple attribute configuration interaction modes are provided for a user, the provided rotating control and sliding control can configure the operation attribute parameter more vividly and conveniently, and the configuration efficiency of the operation attribute parameter is effectively improved, so that user experience is improved.

In one embodiment, as shown in fig. 6, the step of displaying, through the operation control interface, the operation attribute corresponding to the syringe pump identifier includes:

step 602, displaying a plurality of syringe pump inlets through an operation control interface displaying a corresponding operation attribute of the first syringe pump identification.

Step 604, determining a triggered syringe pump inlet of the plurality of syringe pump inlets, and marking a syringe pump identifier corresponding to the triggered syringe pump inlet as a second syringe pump identifier.

Step 606, switching the operation attribute corresponding to the second syringe pump identifier to display on the operation control interface.

The terminal can display the operation attribute corresponding to each of the plurality of injection pumps to be controlled through the operation control interface, so that the operation attribute parameters corresponding to each of the injection pumps to be controlled are obtained, and the plurality of injection pumps to be controlled are controlled respectively. The terminal can display the operation attributes corresponding to the multiple injection pumps to be controlled through the operation control interface shown in fig. 3. However, when the number of the injection pumps to be controlled is large, the operation control interface cannot include all the operation attributes corresponding to the injection pumps to be controlled at the same time. Therefore, the terminal can switch the operation attributes corresponding to different injection pumps to be controlled in the operation control interface for display.

Specifically, for convenience of description, the syringe pump identifier corresponding to the syringe pump to be controlled, which is currently displayed by the operation control interface, may be recorded as the first syringe pump identifier, and the terminal may display the operation attribute corresponding to the first syringe pump identifier through the operation control interface. In the operation control interface for displaying the operation attribute corresponding to the first syringe pump identification, a plurality of syringe pump inlets can be displayed. The syringe pump inlet is an inlet for switching to a corresponding operation attribute of a corresponding syringe pump identifier, and the operation control interface may include processing the syringe pump inlet corresponding to the syringe pump identifier other than the first syringe pump identifier. The terminal may present the syringe pump inlet in a variety of ways. For example, the terminal may specifically display the syringe pump inlet in a list, grid, or wheel display manner. The list may specifically be a tiled list or a drop-down list.

The terminal may determine a triggered syringe pump inlet of the plurality of syringe pump inlets, and record a syringe pump identification corresponding to the triggered syringe pump inlet as the second syringe pump identification. The syringe pump inlet may be triggered by a preset at least one trigger means. For example, the syringe pump entry may be triggered by a clicking operation, the terminal may receive a touch clicking operation or a cursor clicking operation occurring on the operation control interface, and the syringe pump identifier corresponding to the syringe pump entry pointed to by the clicking operation is recorded as the second syringe pump identifier. The terminal may also obtain a cursor hover position that, when hovered over a syringe pump inlet, determines to trigger the syringe pump inlet.

The terminal can acquire the operation attribute corresponding to the second syringe pump identifier, switch the operation attribute corresponding to the first syringe pump identifier in the operation control interface to the operation attribute corresponding to the second syringe pump identifier, and display the operation attribute corresponding to the second syringe pump identifier through the operation control interface. The manner of acquiring and displaying the operation attribute is similar to that in the above embodiment, so that the description is omitted here. It can be understood that the first and second are only used for distinguishing the syringe pump identifiers, when the operation control interface is switched to the operation attribute corresponding to the second syringe pump identifier, the syringe pump identifier can be recorded as the first syringe pump identifier, and the terminal continues to display the syringe pump inlet, so that the operation attribute corresponding to the other syringe pump identifiers is switched to display.

In the embodiment, only one operation attribute corresponding to the injection pump to be controlled is displayed at a time, so that the operation attribute is clearly and simply displayed, the operation attribute is conveniently configured, and the configuration efficiency of the operation attribute is effectively improved. The operation control interface is used for displaying the operation attributes corresponding to the plurality of injection pumps to be controlled in a switching manner, so that the operation attributes corresponding to the plurality of injection pumps to be controlled are conveniently configured, the plurality of injection pumps to be controlled are controlled through the unified operation control interface, and the control efficiency of the injection pumps is effectively improved.

In one embodiment, the step of obtaining the standard command corresponding to the syringe pump to be controlled from the command library includes: acquiring a plurality of preset instructions from an instruction library, and generating test instructions according to the preset instructions; the method comprises the steps of sending test instructions to the injection pump to be controlled one by one, and receiving a test result returned by the injection pump to be controlled based on the test instructions; and determining a standard instruction corresponding to the injection pump to be controlled from a plurality of preset instructions according to the test result.

When the preset instructions in the instruction library are not associated with the injection pump to be controlled, the instructions for controlling the injection pump to be controlled cannot be determined, and the terminal can test the preset instructions in the instruction library. Specifically, the terminal may acquire a plurality of instruction subsets included in the instruction library, and acquire preset instructions from the plurality of instruction subsets of the instruction library, respectively. The subset of instructions may include a set of instructions that control the syringe pump, when one of the subset of instructions is available, indicating that the subset of instructions is a corresponding match with the syringe pump. The terminal may obtain fixed preset instructions in the instruction subset, for example, obtain operation execution instructions from each of the plurality of instruction subsets.

In one embodiment, the terminal may further obtain any one preset instruction in the instruction subset, and when it is determined that the instruction subset matches with the syringe pump to be controlled, obtain an operation execution instruction from the instruction subset and record the operation execution instruction as a standard instruction.

The terminal can generate test instructions according to the preset instructions, the test instructions are sent to the injection pump to be controlled one by one through communication connection, and the injection pump to be controlled can return test results according to the test instructions sent by the terminal. Specifically, after receiving the test instruction, the injection pump to be controlled can analyze and respond to the test instruction. When the test command matches the syringe pump to be controlled, the syringe pump to be controlled can respond to the test command. When the test command is not matched with the injection pump to be controlled, the injection pump to be controlled cannot analyze and respond to the test command.

The terminal may receive a test result returned by the syringe pump to be controlled, and the test result may specifically be a response result. For example, when the syringe pump to be controlled is able to respond to the test instruction, the syringe pump to be controlled may return a "1" to the terminal. When the syringe pump to be controlled cannot respond to the test instruction, the syringe pump to be controlled may return "0" to the terminal. The terminal can determine a preset instruction matched with the injection pump to be controlled according to a test result returned by the injection pump to be controlled, and the preset instruction matched with the injection pump to be controlled is recorded as a standard instruction.

It can be understood that the terminal only needs to determine the instruction subset matched with the injection pump to be controlled when the injection pump to be controlled is controlled for the first time, and after the matched instruction subset is determined, the terminal can directly acquire the preset instruction from the instruction subset to control the injection pump to be controlled without repeatedly performing multiple tests.

In one embodiment, the terminal can sequentially traverse a plurality of instruction subsets in the instruction library, and when a test result returned by the injection pump to be controlled is not matched with the test instruction, the preset instruction in the next instruction subset is acquired to generate the test instruction for testing, so that the preset instructions corresponding to all the instruction subsets are not required to be tested, and the interactive resource between the terminal and the injection pump to be controlled is effectively saved.

In this embodiment, a test instruction is generated through a plurality of preset instructions acquired from an instruction library, and a standard instruction corresponding to the to-be-controlled syringe pump is determined from the plurality of preset instructions by receiving a test result returned by the to-be-controlled syringe pump based on the test instruction, so that an instruction matched with the degree of the to-be-controlled syringe pump is automatically identified, and the to-be-controlled syringe pump is controlled through the instruction, thereby effectively improving the control compatibility and universality of the syringe pump.

In one embodiment, after the step of determining the operation attribute parameter corresponding to the operation attribute according to the attribute configuration operation, the method further includes: generating a verification parameter according to the operation attribute; generating a check instruction according to the check parameter, controlling the injection pump to be controlled to execute corresponding operation according to the check parameter through the check instruction, and receiving an operation result returned by the injection pump to be controlled; determining an error value corresponding to the injection pump to be controlled according to the verification parameters and the operation result; and compensating the operation attribute parameters according to the error value to obtain target operation parameters.

The terminal may generate corresponding verification parameters according to the operation attribute corresponding to the syringe pump to be controlled. The verification parameter may be a parameter randomly generated by the terminal according to the operation attribute, and the verification parameter may be any one of the executable operation parameter ranges of the syringe pump to be controlled. The terminal can generate a check instruction according to the check parameter, and send the check instruction to the injection pump to be controlled, and the injection pump to be controlled is controlled to execute corresponding operation according to the check parameter through the check instruction. The manner in which the terminal generates the check instruction and controls the syringe pump to be controlled to perform the corresponding operation through the check instruction is similar to the manner in which the terminal generates the operation control instruction and controls the syringe pump to be controlled to perform the corresponding operation through the operation control instruction in the above embodiment, and therefore will not be described herein.

After the injection pump to be controlled executes corresponding operation according to the verification instruction, an operation result can be obtained and returned to the terminal. The operation result refers to an execution result of an operation actually performed by the syringe pump to be controlled. The terminal may result in an operation result returned by the syringe pump to be controlled, and the operation result may correspond to an operation attribute of the syringe pump to be controlled. For example, the operation result may specifically include an actual extraction speed, an actual discharge speed, an actual extraction volume, and the like at which the syringe pump to be controlled actually performs the operation. The terminal can compare the verification parameter with the operation result to determine the error value corresponding to the injection pump to be controlled. The error value is an error value generated when the injection pump to be controlled actually performs operation, and the error value corresponding to the injection pump to be controlled may include error values corresponding to a plurality of operation attributes respectively.

In one embodiment, the terminal can generate a plurality of verification instructions to verify the injection pump to be controlled, so that an error average value between a plurality of verification parameters and an operation result is obtained, accidental errors of the injection pump to be controlled are avoided, and the accuracy of the error value is ensured.

The terminal can compensate the operation attribute parameters according to the error values corresponding to the injection pump to be controlled to obtain target operation parameters, so that an operation control instruction is generated according to the target operation parameters and the standard instruction, and the injection pump to be controlled executes corresponding operation according to the target operation parameters.

In one embodiment, the terminal need not verify the syringe pump to be controlled after each determination of the operational attribute parameters. The terminal can check the injection pump to be controlled according to the preset frequency, so that an error value obtained by checking is directly obtained to compensate the operation attribute parameters. The preset frequency can be preset according to actual application requirements. The accuracy of the target operation parameters is improved, unnecessary verification processes are reduced, and the operation resources of the terminal and the injection pump to be controlled are effectively saved.

In this embodiment, a verification parameter is generated according to the operation attribute, and the to-be-controlled syringe pump is controlled to execute corresponding operation according to a verification instruction generated by the verification parameter, so as to obtain an operation result returned by the to-be-controlled syringe pump. And determining an error value corresponding to the injection pump to be controlled through the verification parameter and the operation result, and compensating the operation attribute parameter according to the error value, so that the injection pump to be controlled executes corresponding operation according to the compensated target operation parameter, and the accuracy of controlling the injection pump is effectively improved.

It should be understood that, although the steps in the flowcharts of fig. 2, 4, and 6 are shown in order as indicated by the arrows, these steps are not necessarily performed in order as indicated by the arrows. The steps are not strictly limited to the order of execution unless explicitly recited herein, and the steps may be executed in other orders. Moreover, at least some of the steps of fig. 2, 4, and 6 may include steps or stages that are not necessarily performed at the same time, but may be performed at different times, nor do the order in which the steps or stages are performed necessarily performed in sequence, but may be performed alternately or alternately with other steps or at least a portion of the steps or stages in other steps.

In one embodiment, as shown in fig. 7, there is provided a syringe pump control device comprising: a property presentation module 702, a parameter determination module 704, and a syringe pump control module 706, wherein:

the attribute display module 702 is configured to obtain a syringe pump identifier corresponding to a syringe pump to be controlled; and displaying operation attributes corresponding to the syringe pump identification through an operation control interface.

The parameter determining module 704 is configured to determine, when an attribute configuration operation acting on the operation control interface is received, an operation attribute parameter corresponding to the operation attribute according to the attribute configuration operation.

The syringe pump control module 706 is configured to obtain a standard instruction corresponding to a syringe pump to be controlled from the instruction library; generating an operation control instruction according to the operation attribute parameters and the standard instruction, and controlling the injection pump to be controlled to execute corresponding operation according to the operation attribute parameters through the operation control instruction.

In one embodiment, the attribute display module 702 is further configured to obtain a syringe pump type corresponding to the syringe pump to be controlled according to the syringe pump identifier; determining at least one corresponding operation type according to the type of the injection pump; and acquiring operation attributes corresponding to the operation types and current attribute parameters corresponding to the operation attributes, and displaying the operation attributes and the current attribute parameters through an operation control interface.

In one embodiment, the operation control interface includes an attribute configuration control corresponding to an operation attribute; the parameter determining module 704 is further configured to receive a rotation operation for triggering the rotation control when the attribute configuration control includes the rotation control, and determine an operation attribute parameter corresponding to the operation attribute according to the rotation operation; when the attribute configuration control comprises a sliding control, receiving sliding operation for triggering the sliding control, and determining operation attribute parameters corresponding to the operation attributes according to the sliding operation.

In one embodiment, the attribute presentation module 702 is further configured to present the plurality of syringe pump inlets by presenting an operation control interface corresponding to the operation attribute of the first syringe pump identifier; determining a triggered syringe pump inlet in the multiple syringe pump inlets, and marking a syringe pump identifier corresponding to the triggered syringe pump inlet as a second syringe pump identifier; and switching the operation attribute corresponding to the second syringe pump identifier to display on the operation control interface.

In one embodiment, the syringe pump control module 706 is further configured to obtain a plurality of preset instructions from the instruction library, and generate a test instruction according to the preset instructions; the method comprises the steps of sending test instructions to the injection pump to be controlled one by one, and receiving a test result returned by the injection pump to be controlled based on the test instructions; and determining a standard instruction corresponding to the injection pump to be controlled from a plurality of preset instructions according to the test result.

In one embodiment, the syringe pump control module 706 is further configured to generate a verification parameter based on the operational attribute; generating a check instruction according to the check parameter, controlling the injection pump to be controlled to execute corresponding operation according to the check parameter through the check instruction, and receiving an operation result returned by the injection pump to be controlled; determining an error value corresponding to the injection pump to be controlled according to the verification parameters and the operation result; and compensating the operation attribute parameters according to the error value to obtain target operation parameters.

For specific limitations on the syringe pump control means, reference is made to the above limitations on the syringe pump control method, and no further description is given here. The various modules in the above described syringe pump control apparatus may be implemented in whole or in part by software, hardware, and combinations thereof. The above modules may be embedded in hardware or may be independent of a processor in the computer device, or may be stored in software in a memory in the computer device, so that the processor may call and execute operations corresponding to the above modules.

In one embodiment, a computer device is provided, which may be a terminal, and the internal structure thereof may be as shown in fig. 8. The computer device includes a processor, a memory, a communication interface, a display screen, and an input device connected by a system bus. Wherein the processor of the computer device is configured to provide computing and control capabilities. The memory of the computer device includes a non-volatile storage medium and an internal memory. The non-volatile storage medium stores an operating system and a computer program. The internal memory provides an environment for the operation of the operating system and computer programs in the non-volatile storage media. The communication interface of the computer device is used for carrying out wired or wireless communication with an external terminal, and the wireless mode can be realized through WIFI, an operator network, NFC (near field communication) or other technologies. The computer program when executed by a processor implements a syringe pump control method. The display screen of the computer equipment can be a liquid crystal display screen or an electronic ink display screen, and the input device of the computer equipment can be a touch layer covered on the display screen, can also be keys, a track ball or a touch pad arranged on the shell of the computer equipment, and can also be an external keyboard, a touch pad or a mouse and the like.

It will be appreciated by those skilled in the art that the structure shown in fig. 8 is merely a block diagram of some of the structures associated with the present application and is not limiting of the computer device to which the present application may be applied, and that a particular computer device may include more or fewer components than shown, or may combine certain components, or have a different arrangement of components.

In one embodiment, a computer device is provided, comprising a memory and a processor, the memory having stored therein a computer program, the processor, when executing the computer program, performing the steps of the above-described embodiments of the method of controlling a syringe pump.

In one embodiment, a computer readable storage medium is provided, on which a computer program is stored which, when executed by a processor, implements the steps of the above described embodiments of a method of controlling a syringe pump.

Those skilled in the art will appreciate that implementing all or part of the above described methods may be accomplished by way of a computer program stored on a non-transitory computer readable storage medium, which when executed, may comprise the steps of the embodiments of the methods described above. Any reference to memory, storage, database, or other medium used in embodiments provided herein may include at least one of non-volatile and volatile memory. The nonvolatile Memory may include Read-Only Memory (ROM), magnetic tape, floppy disk, flash Memory, optical Memory, or the like. Volatile memory can include random access memory (Random Access Memory, RAM) or external cache memory. By way of illustration, and not limitation, RAM can be in the form of a variety of forms, such as static random access memory (Static Random Access Memory, SRAM) or dynamic random access memory (Dynamic Random Access Memory, DRAM), and the like.

The technical features of the above embodiments may be arbitrarily combined, and all possible combinations of the technical features in the above embodiments are not described for brevity of description, however, as long as there is no contradiction between the combinations of the technical features, they should be considered as the scope of the description.

The above examples merely represent a few embodiments of the present application, which are described in more detail and are not to be construed as limiting the scope of the invention. It should be noted that it would be apparent to those skilled in the art that various modifications and improvements could be made without departing from the spirit of the present application, which would be within the scope of the present application. Accordingly, the scope of protection of the present application is to be determined by the claims appended hereto.

Claims (10)

1. A method of syringe pump control, the method comprising:

acquiring a syringe pump identifier corresponding to a syringe pump to be controlled;

acquiring the type of the injection pump corresponding to the injection pump to be controlled according to the injection pump identifier; the syringe pump types are divided based on a liquid transfer operation performed by the syringe pump;

determining at least one corresponding operation type according to the type of the injection pump;

Acquiring operation attributes corresponding to the operation types and current attribute parameters corresponding to the operation attributes, and displaying the operation attributes and the current attribute parameters through an operation control interface; the operation control interface comprises a plurality of injection pump inlets, and the injection pump inlets are used for switching operation attributes corresponding to the injection pump identifiers corresponding to the injection pumps to be controlled in the operation control interface into operation attributes corresponding to the injection pump identifiers corresponding to the injection pump inlets;

when receiving an attribute configuration operation acting on the operation control interface, determining an operation attribute parameter corresponding to the operation attribute according to the attribute configuration operation;

obtaining a standard instruction corresponding to the injection pump to be controlled from an instruction library; the instruction library comprises instruction subsets respectively corresponding to different types of injection pumps;

and replacing parameters in the standard instruction according to the operation attribute parameters, generating an operation control instruction, sending the operation control instruction to the injection pump to be controlled through communication connection with the injection pump to be controlled, and controlling the injection pump to be controlled to execute corresponding operation according to the operation attribute parameters.

2. The method according to claim 1, wherein when performing control or initialization control of operation of the syringe pump to be controlled, the method further comprises:

acquiring an operation stop instruction or an initialization instruction corresponding to the injection pump to be controlled;

generating an operation control instruction based on the operation stop instruction or the initialization instruction;

and sending the operation control instruction to the injection pump to be controlled, and controlling the injection pump to be controlled to execute corresponding operation.

3. The method of claim 1, wherein the operation control interface includes an attribute configuration control corresponding to the operation attribute;

when receiving an attribute configuration operation acting on the operation control interface, determining an operation attribute parameter corresponding to the operation attribute according to the attribute configuration operation comprises:

when the attribute configuration control comprises a rotation control, receiving rotation operation for triggering the rotation control, and determining operation attribute parameters corresponding to the operation attributes according to the rotation operation;

and when the attribute configuration control comprises a sliding control, receiving a sliding operation for triggering the sliding control, and determining an operation attribute parameter corresponding to the operation attribute according to the sliding operation.

4. The method of claim 3, wherein when the property configuration control comprises a rotation control, receiving a rotation operation for triggering the rotation control, determining an operation property parameter corresponding to the operation property according to the rotation operation, comprises:

determining a rotation angle corresponding to the rotation control according to the rotation operation;

and determining the attribute parameters corresponding to the rotation angle according to the mapping relation between the rotation angle and the attribute parameters, and obtaining the operation attribute parameters of the operation attribute corresponding to the rotation control.

5. The method of claim 1, wherein the obtaining, from a command library, a standard command corresponding to the syringe pump to be controlled comprises:

acquiring a plurality of preset instructions from the instruction library, and generating test instructions according to the preset instructions;

the test instructions are sent to the injection pump to be controlled one by one, and a test result returned by the injection pump to be controlled based on the test instructions is received;

and determining a standard instruction corresponding to the injection pump to be controlled from a plurality of preset instructions according to the test result.

6. The method according to any one of claims 1 to 5, wherein after said determining an operation attribute parameter corresponding to said operation attribute according to said attribute configuration operation, said method further comprises:

Generating a verification parameter according to the operation attribute;

generating a check instruction according to the check parameter, controlling the injection pump to be controlled to execute corresponding operation according to the check parameter through the check instruction, and receiving an operation result returned by the injection pump to be controlled;

determining an error value corresponding to the injection pump to be controlled according to the verification parameter and the operation result;

and compensating the operation attribute parameters according to the error value to obtain target operation parameters.

7. A syringe pump control apparatus, the apparatus comprising:

the attribute display module is used for acquiring the syringe pump identification corresponding to the syringe pump to be controlled; acquiring the type of the injection pump corresponding to the injection pump to be controlled according to the injection pump identifier; the syringe pump types are divided based on a liquid transfer operation performed by the syringe pump; determining at least one corresponding operation type according to the type of the injection pump; acquiring operation attributes corresponding to the operation types and current attribute parameters corresponding to the operation attributes, and displaying the operation attributes and the current attribute parameters through an operation control interface; the operation control interface comprises a plurality of injection pump inlets, and the injection pump inlets are used for switching operation attributes corresponding to the injection pump identifiers corresponding to the injection pumps to be controlled in the operation control interface into operation attributes corresponding to the injection pump identifiers corresponding to the injection pump inlets;

The parameter determining module is used for determining operation attribute parameters corresponding to the operation attributes according to the attribute configuration operation when the attribute configuration operation acting on the operation control interface is received;

the injection pump control module is used for acquiring standard instructions corresponding to the injection pump to be controlled from the instruction library; the instruction library comprises instruction subsets respectively corresponding to different types of injection pumps; and replacing parameters in the standard instruction according to the operation attribute parameters, generating an operation control instruction, sending the operation control instruction to the injection pump to be controlled through communication connection with the injection pump to be controlled, and controlling the injection pump to be controlled to execute corresponding operation according to the operation attribute parameters.

8. The apparatus of claim 7, wherein the attribute display module is further configured to obtain a syringe pump type corresponding to the syringe pump to be controlled according to the syringe pump identifier; determining at least one corresponding operation type according to the type of the injection pump; and acquiring operation attributes corresponding to the operation types and current attribute parameters corresponding to the operation attributes, and displaying the operation attributes and the current attribute parameters through an operation control interface.

9. A computer device comprising a memory and a processor, the memory storing a computer program, characterized in that the processor implements the steps of the method of any of claims 1 to 6 when the computer program is executed.

10. A computer readable storage medium, on which a computer program is stored, characterized in that the computer program, when being executed by a processor, implements the steps of the method of any of claims 1 to 6.