CN108227578A - Automated test control system and method - Google Patents

Abstract

Translated fromChinese

本发明公开了一种自动化测试控制系统及方法。其中，自动化测试控制系统包括：机器人、总控PC和多个测试台，每个测试台包括测试台PC，总控PC与机器人通信连接；机器人用于向总控PC发送指示目标测试台进行测试的指令数据；总控PC用于对指令数据进行逻辑处理以识别出目标测试台PC，还用于在与目标测试台PC建立通信连接后，将指令数据发送至目标测试台PC；目标测试台PC用于根据指令数据控制目标测试台进行测试。在本发明中，机器人经由总控PC与多个测试台PC进行通信，一个机器人控制多个测试台，机器人与测试台PC之间也无需直接进行交互，本发明能够提高产线的生产效率。

The invention discloses an automatic test control system and method. Among them, the automatic test control system includes: a robot, a master control PC and multiple test benches, each test bench includes a test bench PC, and the master control PC communicates with the robot; the robot is used to send instructions to the master control PC to test the target test bench command data; the master control PC is used to logically process the command data to identify the target test bench PC, and is also used to send the command data to the target test bench PC after establishing a communication connection with the target test bench PC; the target test bench The PC is used to control the target test bench for testing according to the instruction data. In the present invention, the robot communicates with multiple test bench PCs via the master control PC, one robot controls multiple test benches, and there is no need for direct interaction between the robot and the test bench PCs. The present invention can improve the production efficiency of the production line.

Description

Translated fromChinese

自动化测试控制系统及方法Automated test control system and method

技术领域technical field

本发明涉及自动化测试技术领域，尤其涉及一种自动化测试控制系统及方法。The invention relates to the technical field of automated testing, in particular to an automated testing control system and method.

背景技术Background technique

社会的不断发展，对工厂的生产效率提出了更高的要求，而人力成本又在不断增加并且熟练操作人员数量也在不断减少，这样的矛盾促使产线引入机器人以取代人工操作。但是，一个机器人负责一个测试台的生产方式仍然难以提高产线的生产效率，进而难以满足如今社会生产的要求。The continuous development of society has put forward higher requirements for the production efficiency of factories, while the labor cost is increasing and the number of skilled operators is also decreasing. Such contradictions prompt the introduction of robots to replace manual operations in the production line. However, the production method in which one robot is responsible for one test bench is still difficult to improve the production efficiency of the production line, and thus it is difficult to meet the requirements of today's social production.

发明内容Contents of the invention

本发明要解决的技术问题是为了克服现有技术中当前生产方式的生产效率低下的缺陷，提供一种自动化测试控制系统及方法。The technical problem to be solved by the present invention is to provide an automatic test control system and method in order to overcome the defect of low production efficiency in the current production mode in the prior art.

本发明是通过下述技术方案来解决上述技术问题：The present invention solves the above technical problems through the following technical solutions:

一种自动化测试控制系统，其特点在于，包括机器人、总控PC和多个测试台，每个所述测试台包括测试台PC，所述总控PC与所述机器人通信连接；An automated test control system, characterized in that it includes a robot, a master control PC and a plurality of test benches, each of the test benches includes a test bench PC, and the master control PC communicates with the robot;

所述机器人用于向所述总控PC发送指示目标测试台进行测试的指令数据；The robot is used to send instruction data indicating that the target test bench is tested to the master control PC;

所述总控PC用于对所述指令数据进行逻辑处理以识别出所述目标测试台PC，还用于在与所述目标测试台PC建立通信连接后，将所述指令数据发送至所述目标测试台PC；The master control PC is used to logically process the instruction data to identify the target test bench PC, and is also used to send the instruction data to the target test bench PC after establishing a communication connection with the target test bench PC. target test bench PC;

所述目标测试台PC用于根据所述指令数据控制目标测试台进行测试。The target test bench PC is used to control the target test bench to perform testing according to the instruction data.

优选地，所述目标测试台PC还用于在与所述总控PC建立通信连接后，向所述总控PC返回测试数据；Preferably, the target test bench PC is further configured to return test data to the master control PC after establishing a communication connection with the master control PC;

所述总控PC还用于处理所述测试数据，并将经处理的所述测试数据发送至所述机器人。The master control PC is also used for processing the test data, and sending the processed test data to the robot.

优选地，所述总控PC还用于将所述指令数据发送至所述目标测试台PC后，断开所述总控PC与所述目标测试台PC之间的通信连接；Preferably, the master control PC is further configured to disconnect the communication connection between the master control PC and the target test bench PC after sending the instruction data to the target test bench PC;

所述目标测试台PC还用于向所述总控PC返回测试数据后，断开所述总控PC与所述目标测试台PC之间的通信连接。The target test bench PC is further configured to disconnect the communication connection between the master control PC and the target test bench PC after returning test data to the master control PC.

优选地，所述总控PC与所述目标测试台PC处于同一局域网中。Preferably, the master control PC and the target test bench PC are in the same local area network.

优选地，所述总控PC与所述目标测试台PC根据TCP协议建立通信连接。Preferably, the master control PC establishes a communication connection with the target test bench PC according to the TCP protocol.

一种自动化测试控制方法，其特点在于，所述自动化测试控制方法利用上述自动化测试控制系统实现，所述自动化测试控制方法包括：An automated test control method, characterized in that the automated test control method is implemented using the above-mentioned automated test control system, and the automated test control method includes:

S1、所述机器人向所述总控PC发送指示目标测试台进行测试的指令数据；S1. The robot sends instruction data to the master control PC to instruct the target test bench to perform the test;

S2、所述总控PC对所述指令数据进行逻辑处理以识别出所述目标测试台PC；S2. The master control PC performs logical processing on the instruction data to identify the target test bench PC;

S3、所述总控PC与所述目标测试台PC建立通信连接；S3. The master control PC establishes a communication connection with the target test bench PC;

S4、所述总控PC将所述指令数据发送至所述目标测试台PC；S4. The master control PC sends the instruction data to the target test bench PC;

S5、所述目标测试台PC根据所述指令数据控制目标测试台进行测试。S5. The target test bench PC controls the target test bench to perform testing according to the instruction data.

优选地，所述自动化测试控制方法还包括：Preferably, the automated test control method further includes:

S6、所述目标测试台PC向所述总控PC返回测试数据；S6. The target test bench PC returns test data to the master control PC;

S7、所述总控PC处理所述测试数据；S7. The master control PC processes the test data;

S8、所述总控PC将经处理的所述测试数据发送至所述机器人。S8. The master control PC sends the processed test data to the robot.

优选地，所述总控PC将所述指令数据发送至所述目标测试台PC后，步骤S4还包括：断开所述总控PC与所述目标测试台PC之间的通信连接；Preferably, after the master control PC sends the instruction data to the target test platform PC, step S4 further includes: disconnecting the communication connection between the master control PC and the target test platform PC;

所述目标测试台PC向所述总控PC返回测试数据前，步骤S6还包括：所述总控PC与所述目标测试台PC建立通信连接；Before the target test bench PC returns test data to the master control PC, step S6 further includes: establishing a communication connection between the master control PC and the target test bench PC;

所述目标测试台PC向所述总控PC返回测试数据后，步骤S6还包括：断开所述总控PC与所述目标测试台PC之间的通信连接。After the target test bench PC returns test data to the master control PC, step S6 further includes: disconnecting the communication connection between the master control PC and the target test bench PC.

优选地，所述总控PC与所述目标测试台PC处于同一局域网中。Preferably, the master control PC and the target test bench PC are in the same local area network.

优选地，所述总控PC与所述目标测试台PC根据TCP协议建立通信连接。Preferably, the master control PC establishes a communication connection with the target test bench PC according to the TCP protocol.

本发明的积极进步效果在于：在本发明中，机器人经由总控PC与多个测试台PC进行通信，从而一个机器人不仅仅只可以实现对一个测试台的控制，机器人与测试台PC之间也无需直接进行交互，因此本发明能够提高产线的生产效率，并进而满足如今社会生产的要求。The positive progress effect of the present invention is: in the present invention, the robot communicates with a plurality of test bench PCs via the master control PC, so that a robot can not only realize the control of a test bench, but also between the robot and the test bench PCs. There is no need for direct interaction, so the present invention can improve the production efficiency of the production line, and further meet the requirements of today's social production.

附图说明Description of drawings

图1为根据本发明实施例1的自动化测试控制系统的结构示意图。FIG. 1 is a schematic structural diagram of an automated test control system according to Embodiment 1 of the present invention.

图2为根据本发明实施例3的自动化测试控制方法的流程图。FIG. 2 is a flowchart of an automated test control method according to Embodiment 3 of the present invention.

图3为根据本发明实施例4的自动化测试控制方法的流程图。FIG. 3 is a flowchart of an automated test control method according to Embodiment 4 of the present invention.

具体实施方式Detailed ways

下面通过实施例的方式进一步说明本发明，但并不因此将本发明限制在所述的实施例范围之中。The present invention is further illustrated below by means of examples, but the present invention is not limited to the scope of the examples.

实施例1Example 1

本实施例提供了一种自动化测试控制系统，图1示出了本实施例的结构示意图。如图1所示，本实施例的自动化测试系统包括机器人1、总控PC2以及多个测试台3，其中每个测试台3包括测试台PC31。This embodiment provides an automated test control system, and FIG. 1 shows a schematic structural diagram of this embodiment. As shown in FIG. 1 , the automated testing system of this embodiment includes a robot 1 , a master control PC 2 and a plurality of test benches 3 , wherein each test bench 3 includes a test bench PC31 .

具体地，机器人1与总控PC2通信连接，并用于向总控PC2发送指令数据，该指令数据用于指示部分测试台3(即，目标测试台)进行测试。总控PC2接收到指令数据后对该指令数据进行逻辑处理，解析出该指令数据中包含的测试台编号，进而识别出测试台编号指代的目标测试台PC。总控PC2在与目标测试台PC建立通信连接后，还用于将指令数据发送至相应的目标测试台PC。目标测试台PC则用于根据接收到的指令数据控制目标测试台进行测试。Specifically, the robot 1 communicates with the general control PC2, and is used to send instruction data to the general control PC2, and the instruction data is used to instruct part of the test bench 3 (ie, the target test bench) to perform testing. After receiving the command data, the master control PC2 performs logical processing on the command data, parses out the test bench number contained in the command data, and then identifies the target test bench PC referred to by the test bench number. After the master control PC2 establishes a communication connection with the target test platform PC, it is also used to send instruction data to the corresponding target test platform PC. The target test bench PC is used to control the target test bench for testing according to the received instruction data.

在本实施例的自动化测试控制系统中，机器人经由总线PC与多个测试台PC进行通信，进而控制多个测试台进行测试，从而一个机器人不仅仅只控制一份测试台，机器人与测试台PC之间也无需直接进行信息交互，进而提高了产线的生产效率。此外，本实施例中的多个测试台作为一个整体经由统一的对外接口(即，总控PC)与机器人组合使用，机器人的更换不会直接影响到其对目标测试台的控制，并且测试台内部软、硬件的变化也不会影响到其与机器人等的连接，因此，本实施例的自动化测试控制系统具有较高的兼容性，能够进一步提高产线的生产效率。In the automated test control system of this embodiment, the robot communicates with a plurality of test bench PCs via the bus PC, and then controls a plurality of test benches for testing. There is no need for direct information interaction between them, which improves the production efficiency of the production line. In addition, multiple test benches in this embodiment are used as a whole in combination with the robot via a unified external interface (that is, the master control PC), and the replacement of the robot will not directly affect its control of the target test bench, and the test bench Changes in internal software and hardware will not affect its connection with robots, etc. Therefore, the automated test control system of this embodiment has high compatibility and can further improve the production efficiency of the production line.

实施例2Example 2

本实施例提供的自动化测试控制系统是对实施例1的进一步改进。具体地，总控PC2还用于将指令数据发送至目标测试台PC后，断开总控PC2与目标测试台PC之间的通信连接。目标测试台PC还用于在与总控PC2建立通信连接后，向总控PC2返回测试数据，并在测试数据返回完毕后，断开总控PC2与目标测试台PC之间的通信连接。总控PC2接收到测试数据后对该测试数据进行处理，并将经处理的测试数据发送到机器人1。The automated test control system provided in this embodiment is a further improvement on Embodiment 1. Specifically, the master control PC2 is also used to disconnect the communication connection between the master control PC2 and the target test bench PC after sending the instruction data to the target test bench PC. The target test bench PC is also used to return test data to the master control PC2 after establishing a communication connection with the master control PC2, and disconnect the communication connection between the master control PC2 and the target test bench PC after the test data is returned. The master control PC2 processes the test data after receiving the test data, and sends the processed test data to the robot 1 .

进一步地，在本实施例中，总控PC2与目标测试台PC处于同一局域网中，例如目标测试台PC经由集线器或交换机与总控PC2建立通信连接，总控PC2与目标测试台PC根据TCP协议建立通信连接，Further, in this embodiment, the master control PC2 and the target test bench PC are in the same local area network, for example, the target test bench PC establishes a communication connection with the master control PC2 via a hub or switch, and the master control PC2 and the target test bench PC are connected according to the TCP protocol. establish a communication connection,

本实施例在实施例1提供的自动化测试控制系统的基础上，进一步实现了机器人与目标测试台PC之间完整的信息交互，即除了机器人经由总控PC向目标测试台PC发送指令数据之外，目标测试台PC还经由总控PC向机器人返回测试数据。此外，在本实施例中，总控PC与目标测试台PC仅在传输数据时建立通信连接，并在数据传输完毕后断开通信连接，由此避免了总控PC与目标测试台PC对通信资源的占用，也减轻了本实施例自动化测试控制系统所处通信网络的负担。On the basis of the automated test control system provided in Embodiment 1, this embodiment further realizes the complete information interaction between the robot and the target test bench PC, that is, except that the robot sends instruction data to the target test bench PC via the master control PC , the target test bench PC also returns test data to the robot via the master control PC. In addition, in this embodiment, the master control PC and the target test bench PC only establish a communication connection when transmitting data, and disconnect the communication connection after the data transmission is completed, thus avoiding the communication between the master control PC and the target test bench PC. The occupancy of resources also reduces the burden on the communication network where the automated test control system of this embodiment is located.

实施例3Example 3

本实施例提供一种自动化测试控制方法，其利用实施例1提供的自动化测试控制系统实现，图2示出了本实施例的流程图。如图2所示，本实施例的自动化测试控制方法包括：This embodiment provides an automated test control method, which is implemented by using the automated test control system provided in Embodiment 1. FIG. 2 shows a flow chart of this embodiment. As shown in Figure 2, the automated test control method of this embodiment includes:

S1、机器人向总控PC发送指示目标测试台进行测试的指令数据；S1. The robot sends instruction data indicating the target test bench to test to the master control PC;

S2、总控PC对指令数据进行逻辑处理以识别出目标测试台PC；S2. The master control PC performs logical processing on the instruction data to identify the target test bench PC;

S3、总控PC与目标测试台PC建立通信连接；S3. The master control PC establishes a communication connection with the target test bench PC;

S4、总控PC将指令数据发送至目标测试台PC；S4. The master control PC sends the instruction data to the target test bench PC;

S5、目标测试台PC根据指令数据控制目标测试台进行测试。S5. The target test bench PC controls the target test bench to perform testing according to the instruction data.

具体地，机器人与总控PC通信连接后，向总控PC发送指令数据，该指令数据用于指示部分测试台(即，目标测试台)进行测试。总控PC接收到指令数据后对该指令数据进行逻辑处理，解析出该指令数据中包含的测试台编号，进而识别出测试台编号指代的目标测试台PC。总控PC在与目标测试台PC建立通信连接后，将指令数据发送至相应的目标测试台PC。目标测试台PC则根据接收到的指令数据控制目标测试台进行测试。Specifically, after the robot communicates with the main control PC, it sends instruction data to the main control PC, and the instruction data is used to instruct some test benches (ie, target test benches) to perform tests. After receiving the command data, the master control PC performs logical processing on the command data, parses out the test bench number contained in the command data, and then identifies the target test bench PC referred to by the test bench number. After the master control PC establishes a communication connection with the target test bench PC, it sends the instruction data to the corresponding target test bench PC. The target test bench PC controls the target test bench for testing according to the received instruction data.

在本实施例的自动化测试控制系统中，机器人经由总线PC与多个测试台PC进行通信，进而控制多个测试台进行测试，从而一个机器人不仅仅只控制一份测试台，机器人与测试台PC之间也无需直接进行信息交互，进而提高了产线的生产效率。此外，本实施例中的多个测试台作为一个整体经由统一的对外接口(即，总控PC)与机器人组合使用，机器人的更换不会直接影响到其对目标测试台的控制，并且测试台内部软、硬件的变化也不会影响到其与机器人等的连接，因此，本实施例的自动化测试控制系统具有较高的兼容性，能够进一步提高产线的生产效率。In the automated test control system of this embodiment, the robot communicates with a plurality of test bench PCs via the bus PC, and then controls a plurality of test benches for testing. There is no need for direct information interaction between them, which improves the production efficiency of the production line. In addition, multiple test benches in this embodiment are used as a whole in combination with the robot via a unified external interface (that is, the master control PC), and the replacement of the robot will not directly affect its control of the target test bench, and the test bench Changes in internal software and hardware will not affect its connection with robots, etc. Therefore, the automated test control system of this embodiment has high compatibility and can further improve the production efficiency of the production line.

实施例4Example 4

本实施例提供的自动化测试控制方法是对实施例3的进一步改进，图3示出了本实施例的流程图。如图3所示，本实施例的自动化测试控制方法较之实施例3的改进在于：The automated test control method provided in this embodiment is a further improvement on Embodiment 3, and FIG. 3 shows a flow chart of this embodiment. As shown in Figure 3, the improvement of the automated test control method of this embodiment compared with Embodiment 3 lies in:

步骤S4具体包括：Step S4 specifically includes:

S41、总控PC将指令数据发送至目标测试台PC；S41. The master control PC sends the command data to the target test bench PC;

S42、断开总控PC与目标测试台PC之间的通信连接。S42. Disconnect the communication connection between the master control PC and the target test bench PC.

本实施例的自动化测试控制方法还包括步骤S6，步骤S6具体包括：The automated test control method of this embodiment also includes step S6, and step S6 specifically includes:

S61、总控PC与目标测试台PC建立通信连接；S61, the master control PC establishes a communication connection with the target test bench PC;

S62、目标测试台PC向总控PC返回测试数据；S62. The target test bench PC returns test data to the master control PC;

S63、断开总控PC与目标测试台PC之间的通信连接。S63. Disconnect the communication connection between the master control PC and the target test bench PC.

本实施例的自动化测试控制方法还包括步骤S7-S8，具体地：The automated test control method of this embodiment also includes steps S7-S8, specifically:

S7、总控PC处理测试数据；S7, the master control PC processes the test data;

S8、总控PC将经处理的测试数据发送至机器人。S8. The master control PC sends the processed test data to the robot.

在实施例3的基础上，总控PC将指令数据发送至目标测试台PC后，还断开总控PC与目标测试台PC之间的通信连接。目标测试台PC在与总控PC建立通信连接后，还向总控PC返回测试数据，并在测试数据返回完毕后，断开总控PC与目标测试台PC之间的通信连接。总控PC接收到测试数据后对该测试数据进行处理，并将经处理的测试数据发送到机器人。On the basis of Embodiment 3, after the master control PC sends the instruction data to the target test bench PC, the communication connection between the master control PC and the target test bench PC is disconnected. The target test bench PC returns test data to the master control PC after establishing a communication connection with the master control PC, and disconnects the communication connection between the master control PC and the target test bench PC after the test data is returned. The master control PC processes the test data after receiving the test data, and sends the processed test data to the robot.

进一步地，在本实施例中，总控PC与目标测试台PC处于同一局域网中，例如目标测试台PC经由集线器或交换机与总控PC建立通信连接，总控PC与目标测试台PC根据TCP协议建立通信连接，Further, in this embodiment, the master control PC and the target test bench PC are in the same local area network, for example, the target test bench PC establishes a communication connection with the master control PC via a hub or switch, and the master control PC and the target test bench PC are connected according to the TCP protocol. establish a communication connection,

本实施例在实施例3提供的自动化测试控制方法基础上，进一步实现了机器人与目标测试台PC之间完整的信息交互，即除了机器人经由总控PC向目标测试台PC发送指令数据之外，目标测试台PC还经由总控PC向机器人返回测试数据。此外，在本实施例中，总控PC与目标测试台PC仅在传输数据时建立通信连接，并在数据传输完毕后断开通信连接，由此避免了总控PC与目标测试台PC对通信资源的占用，也减轻了本实施例自动化测试控制系统所处通信网络的负担。On the basis of the automated test control method provided in Embodiment 3, this embodiment further realizes the complete information interaction between the robot and the target test bench PC, that is, in addition to sending instruction data from the robot to the target test bench PC via the master control PC, The target test bench PC also returns test data to the robot via the master control PC. In addition, in this embodiment, the master control PC and the target test bench PC only establish a communication connection when transmitting data, and disconnect the communication connection after the data transmission is completed, thus avoiding the communication between the master control PC and the target test bench PC. The occupancy of resources also reduces the burden on the communication network where the automated test control system of this embodiment is located.

虽然以上描述了本发明的具体实施方式，但是本领域的技术人员应当理解，这仅是举例说明，本发明的保护范围是由所附权利要求书限定的。本领域的技术人员在不背离本发明的原理和实质的前提下，可以对这些实施方式做出多种变更或修改，但这些变更和修改均落入本发明的保护范围。Although the specific implementation of the present invention has been described above, those skilled in the art should understand that this is only an example, and the protection scope of the present invention is defined by the appended claims. Those skilled in the art can make various changes or modifications to these embodiments without departing from the principle and essence of the present invention, but these changes and modifications all fall within the protection scope of the present invention.

Claims (10)

1. a kind of automated test control system, which is characterized in that including robot, master control PC and multiple testboards, Mei GesuoTestboard is stated to connect with the robot communication including testboard PC, the master control PC；

The robot is used for the director data for sending instruction target detection platform to the master control PC and being tested；

The master control PC is used to carry out logical process to described instruction data to identify target detection platform PC, be additionally operable to instituteAfter stating target detection platform PC foundation communication connections, described instruction data are sent to the target detection platform PC；

The target detection platform PC is used to be tested according to described instruction data control targe testboard.

2. automated test control system as described in claim 1, which is characterized in that the target detection platform PC is additionally operable toAfter establishing communication connection with the master control PC, test data is returned to the master control PC；

The master control PC is additionally operable to handle the test data, and the processed test data is sent to the machinePeople.

3. automated test control system as claimed in claim 2, which is characterized in that the master control PC is additionally operable to the fingerAfter data is enabled to be sent to the target detection platform PC, the communication link between the master control PC and the target detection platform PC is disconnectedIt connects；

The target detection platform PC is additionally operable to after the master control PC returns to test data, disconnects the master control PC and the targetCommunication connection between testboard PC.

4. automated test control system as described in claim 1, which is characterized in that the master control PC and the target detectionPlatform PC is in same LAN.

5. automated test control system as described in claim 1, which is characterized in that the master control PC and the target detectionPlatform PC is established according to Transmission Control Protocol and is communicated to connect.

6. a kind of automatic test control method, which is characterized in that the automatic test control method utilizes such as claim 1The automated test control system realizes that the automatic test control method includes：

S1, the robot send the director data for indicating that target detection platform is tested to the master control PC；

S2, the master control PC carry out logical process to identify the target detection platform PC to described instruction data；

S3, the master control PC are established with the target detection platform PC and are communicated to connect；

Described instruction data are sent to the target detection platform PC by S4, the master control PC；

S5, the target detection platform PC are tested according to described instruction data control targe testboard.

7. automatic test control method as claimed in claim 6, which is characterized in that the automatic test control method is alsoIncluding：

S6, the target detection platform PC return to test data to the master control PC；

S7, the master control PC processing test data；

The processed test data is sent to the robot by S8, the master control PC.

8. automatic test control method as claimed in claim 7, which is characterized in that the master control PC is by described instruction dataAfter being sent to the target detection platform PC, step S4 is further included：It disconnects between the master control PC and the target detection platform PCCommunication connection；

Before the master control PC returns to test data, step S6 is further included the target detection platform PC：The master control PC with it is describedTarget detection platform PC establishes communication connection；

After the master control PC returns to test data, step S6 is further included the target detection platform PC：Disconnect the master control PC withCommunication connection between the target detection platform PC.

9. automatic test control method as claimed in claim 6, which is characterized in that the master control PC and the target detectionPlatform PC is in same LAN.

10. automatic test control method as claimed in claim 6, which is characterized in that the master control PC is surveyed with the targetTest stand PC is established according to Transmission Control Protocol and is communicated to connect.