CN211375590U - CPCI case monitoring device and system - Google Patents

Abstract

The utility model discloses a CPCI machine case monitoring device and system, the device includes: the system comprises an information processing control module and a power supply sampling module, wherein the information processing control module and the power supply sampling module are used for acquiring hardware operation information of a compact peripheral component interconnect standard CPCI case; and the information processing control module is also used for controlling the operation state of the CPCI case hardware based on the CPCI case hardware operation information. The utility model discloses can carry out hardware running state control automatically, solve the problem that can't satisfy unmanned on duty system and use among the prior art.

Description

CPCI case monitoring device and system

Technical Field

The utility model relates to a CPCI (Compact Peripheral Component Interconnect) machine case field especially relates to a CPCI machine case monitoring device and system.

Background

CPCI (Compact Peripheral Component Interconnect), a bus interface standard proposed by PICMG (PCI Industrial computer manufacturers' Group) in 1994. The CPCI case is a mechanical case based on a CPCI bus and has the functions of board card installation and fixation, system power supply, heat dissipation and the like. The method is widely applied to the fields of real-time control, industrial automation, real-time data acquisition and the like. At present, CPCI chassis adopts local state monitoring and manual hardware running state control locally, and cannot meet the application of an unattended system.

SUMMERY OF THE UTILITY MODEL

An embodiment of the utility model provides a CPCI machine case monitoring device and system for solve prior art and can't satisfy the problem that unmanned on duty system used.

The embodiment of the utility model provides a CPCI machine case monitoring device, the device includes: an information processing control module and a power sampling module, wherein,

the information processing control module and the power supply sampling module are used for acquiring hardware operation information of the compact peripheral component interconnect standard CPCI case;

the information processing control module is also used for controlling the hardware operation state of the CPCI case based on the CPCI case hardware operation information.

Optionally, the CPCI chassis hardware operation information includes:

current and voltage information, on-off state information, case temperature information and CPCI case fan rotating speed information of the power supply;

the CPCI case hardware operation state comprises the following steps: CPCI chassis fan speed and switch status.

Optionally, the information processing control module is connected to the CPCI chassis fan, and the information processing control module is configured to obtain information of a rotation speed of the CPCI chassis fan;

the power supply sampling module is connected with a CPCI case power supply and is used for acquiring current and voltage information, switch state information and case temperature information of the power supply;

the power sampling module is further configured to:

and sending the acquired current and voltage information, the acquired switch state information and the acquired case temperature information of the power supply to the information processing control module.

Optionally, the information processing control module is further configured to:

adjusting the rotation speed of a CPCI case fan according to the case temperature information;

and when the case temperature information is greater than a preset temperature threshold value and/or the current and voltage information is in a preset abnormal current and voltage interval, controlling the CPCI case to shut down.

Optionally, as an optional technical solution, the apparatus further includes:

the local display control module is used for receiving and displaying the CPCI case hardware operation information sent by the information processing control module;

and the local display control module is also used for generating a local control instruction based on user operation and sending the local control instruction to the information processing control module.

Optionally, the information processing control module is further configured to:

and receiving the local control instruction sent by the local display control module, and controlling the hardware running state of the CPCI case according to the local control instruction.

Optionally, as another optional technical solution, the apparatus further includes:

the remote monitoring module is used for receiving and displaying the CPCI case hardware operation information sent by the information processing control module;

the remote monitoring module is also used for generating a remote control instruction based on user operation and sending the remote control instruction to the information processing control module.

Optionally, the information processing control module is further configured to:

and receiving the remote control instruction sent by the remote monitoring module, and controlling the hardware running state of the CPCI case according to the remote control instruction.

Optionally, as a third optional technical solution, the implementation manners in the two optional technical solutions may be combined to implement local and remote dual monitoring.

The embodiment of the utility model provides a CPCI machine case monitored control system, the system includes: CPCI case and above-mentioned CPCI case monitoring device.

By adopting the embodiment of the utility model, the hardware running information in the CPCI case is collected through the information processing control module and the power supply sampling module, and the hardware running state is controlled based on the hardware running information, thereby realizing the automatic control of the hardware in the CPCI case; some embodiments of the utility model also display the hardware operation information of the CPCI case to the user through the remote monitoring module and the local display control module respectively; when a user sends a control instruction to and from the remote monitoring module, the information processing control module receives the control instruction sent by the remote monitoring module and controls hardware according to the control instruction, so that the user can monitor and control the running state of the hardware in the CPCI case remotely; when a user issues a control instruction on the local display control module, the information processing control module receives the control instruction issued by the local display control module and controls hardware according to the control instruction, so that the user can monitor and control the running state of the hardware in the CPCI case locally, and local and remote dual monitoring is realized.

The above description is only an overview of the technical solutions of the present invention, and in order to make the technical means of the present invention more clearly understood, the present invention may be implemented according to the content of the description, and in order to make the above and other objects, features, and advantages of the present invention more obvious and understandable, the following detailed description of the present invention is given.

Drawings

Various other advantages and benefits will become apparent to those of ordinary skill in the art upon reading the following detailed description of the preferred embodiments. The drawings are only for purposes of illustrating the preferred embodiments and are not to be construed as limiting the invention. Moreover, like reference numerals refer to like parts throughout the several views of the drawings. In the drawings:

fig. 1 is a schematic structural diagram of an apparatus for automatically controlling an operating state of hardware in a CPCI chassis according to an embodiment of the present invention;

fig. 2 is a schematic structural diagram of an apparatus for controlling hardware operating state in a CPCI chassis by operation of a local display control module according to an embodiment of the present invention;

fig. 3 is a schematic structural diagram of the operation state of the hardware in the CPCI case controlled by the operation of the remote monitoring module provided by the embodiment of the present invention

Fig. 4 is a flowchart illustrating steps of a method for automatically controlling an operating state of hardware in a CPCI chassis according to an embodiment of the present invention;

fig. 5 is a flowchart illustrating steps of a method for controlling a hardware operating status in a CPCI chassis based on a user operating a remote monitoring module according to an embodiment of the present invention;

fig. 6 is a flowchart illustrating steps of a method for controlling hardware operating status in a CPCI chassis based on user operation of a local display control module according to an embodiment of the present invention.

Detailed Description

Exemplary embodiments of the present invention will be described in more detail below with reference to the accompanying drawings. While exemplary embodiments of the invention are shown in the drawings, it should be understood that the invention can be embodied in various forms and should not be limited to the embodiments set forth herein. Rather, these embodiments are provided so that this disclosure will be thorough and complete, and will fully convey the scope of the invention to those skilled in the art.

The utility model discloses a first embodiment provides a CPCI machine case monitoring device, as shown in FIG. 1, the device includes: an information processing control module 10, and a power sampling module 12, wherein,

the information processing control module 10 and the power sampling module 12 are both used for acquiring the hardware operation information of the CPCI chassis;

the information processing control module 10 is further configured to control the operating state of the CPCI chassis hardware based on the CPCI chassis hardware operating information.

Optionally, the CPCI chassis hardware operation information includes: current and voltage information, on-off state information, case temperature information and CPCI case fan rotating speed information of the power supply;

the CPCI case hardware operation state comprises the following steps: the rotation speed and the on-off state of the CPCI case fan;

the CPCI chassis fan speed information is obtained in the following mode:

the information processing control module 10 is connected with a CPCI chassis fan, and the information processing control module 10 is specifically configured to obtain information on the rotation speed of the CPCI chassis fan;

the current and voltage information, the switch state information and the case temperature information of the power supply are acquired in the following modes:

the power supply sampling module 12 is connected with a CPCI case power supply, and the power supply sampling module 12 is specifically configured to acquire current and voltage information, switch state information, and case temperature information of the power supply.

The embodiment of the utility model provides a realize the automatic control of CPCI machine incasement hardware, satisfied the demand that unmanned on duty system used, provide the safety guarantee to the operation of CPCI machine incasement hardware.

The utility model discloses a second embodiment provides a CPCI machine case monitoring device, as shown in FIG. 2, the device includes: an information processing control module 10, a power sampling module 12, and a local display control module 14, wherein,

the information processing control module 10 and the power sampling module 12 are both used for acquiring the hardware operation information of the CPCI chassis;

the information processing control module 10 is further configured to control a hardware operation state of the CPCI chassis based on the hardware operation information of the CPCI chassis;

the local display and control module 14 is configured to receive and display the CPCI chassis hardware operation information, so that a user locally monitors the CPCI chassis hardware operation information, and generates a local control instruction based on a user operation, and then sends the local control instruction to the information processing and control module 10.

Optionally, the CPCI chassis hardware operation information includes: current and voltage information, on-off state information, case temperature information and CPCI case fan rotating speed information of the power supply;

the CPCI case hardware operation state comprises the following steps: the rotation speed and the on-off state of the CPCI case fan;

the CPCI chassis fan speed information is obtained in the following mode:

the information processing control module 10 is connected with a CPCI chassis fan, and the information processing control module 10 is specifically configured to obtain information on the rotation speed of the CPCI chassis fan;

the current and voltage information, the switch state information and the case temperature information of the power supply are acquired in the following modes:

the power supply sampling module 12 is connected with a CPCI case power supply, and the power supply sampling module 12 is specifically configured to acquire current and voltage information, switch state information, and case temperature information of the power supply.

Optionally, the information processing control module 10 is further specifically configured to:

and receiving the local control instruction sent by the local display control module 14, and controlling the hardware running state of the CPCI case according to the local control instruction so that a user can locally control the CPCI case to be turned on or turned off and adjust the rotating speed of a fan of the CPCI case.

The embodiment of the utility model provides a realized that the user controls CPCI machine case switching on and shutting down and adjust CPCI machine case fan speed locally, make the user have directly perceived and clear grasp to the hardware running state in the CPCI machine case when local, and be equipped with the current and voltage information of special power sampling module collection power, on-off state information and quick-witted case temperature information, gather CPCI machine case fan speed through information processing control module alone, the accuracy of information acquisition is ensured, overcome the inaccurate technical defect of information acquisition that prior art leads to through the information acquisition of single mainboard each hardware running state information; the CPCI case can be directly controlled to be turned on and turned off locally and the rotating speed of a fan of the CPCI case can be adjusted by controlling the local display control module, so that the manual intervention of a user on the running state of the CPCI case hardware is realized locally, and the humanized use requirement is met.

The utility model discloses a third embodiment provides a CPCI machine case monitoring device, as shown in FIG. 3, the device includes: an information processing control module 10, a power sampling module 12, and a remote monitoring module 16, wherein,

the information processing control module 10 and the power sampling module 12 are both used for acquiring the running information of the CPCI chassis hardware, and the information processing control module 10 is also used for controlling the running state of the CPCI chassis hardware based on the running information of the CPCI chassis hardware; the remote monitoring module 16 is configured to receive and display the CPCI chassis hardware operation information, so that a user can remotely monitor the CPCI chassis hardware operation information, generate a remote control instruction based on a user operation, and send the remote control instruction to the information processing control module 10.

Optionally, the CPCI chassis hardware operation information includes: current and voltage information, on-off state information, case temperature information and CPCI case fan rotating speed information of the power supply;

the CPCI case hardware operation state comprises the following steps: the rotation speed and the on-off state of the CPCI case fan;

the CPCI chassis fan rotating speed information acquisition mode is as follows:

the information processing control module 10 is connected with a CPCI chassis fan, and the information processing control module 10 is specifically configured to obtain information on the rotation speed of the CPCI chassis fan;

the current and voltage information, the switch state information and the case temperature information of the power supply are acquired in the following modes:

the power supply sampling module 12 is connected with a CPCI case power supply, and the power supply sampling module 12 is specifically configured to acquire current and voltage information, switch state information, and case temperature information of the power supply.

Optionally, the information processing control module 10 is further specifically configured to:

and receiving the remote control instruction sent by the remote monitoring module 16, and controlling the running state of the hardware of the CPCI case according to the remote control instruction so that a user can remotely control the CPCI case to be turned on or turned off and adjust the rotating speed of the fan of the CPCI case.

Optionally, the utility model discloses CPCI machine case monitoring device can also be according to the user demand, uses the remote monitoring mode based on local apparent control module and the monitoring mode based on remote monitoring module that records in this embodiment as the fifth embodiment simultaneously.

The embodiment of the utility model provides a realized that the user is at remote control CPCI machine case switching on and shutting down and adjust CPCI machine case fan speed, make the user have clear grasp to CPCI machine incasement hardware running state when long-range, and can be at remote control CPCI machine case switching on and shutting down and adjust CPCI machine case fan speed, realized the user and in long-range human intervention to CPCI machine case hardware running state, overcome prior art and can only carry out CPCI machine case hardware running state control and lead to the inflexible convenient defect of monitoring mode through the manual work at local terminal, accord with humanized user demand more.

The fourth embodiment of the present invention provides a CPCI chassis monitoring method, as shown in fig. 4, the method includes the following steps:

s101, connecting a power supply sampling module and an information processing control module with a CPCI case, and acquiring hardware operation information of the CPCI case through the power supply sampling module and the information processing control module;

optionally, S101 specifically includes:

connecting the power supply sampling module with a CPCI case power supply, and acquiring current and voltage information, switch state information and case temperature information of the power supply through the power supply sampling module;

and connecting the information processing control module with a CPCI case fan, and acquiring the rotation speed information of the CPCI case fan through the information processing control module.

Wherein, the CPCI case hardware operation information includes:

current and voltage information of the power supply, switch state information, case temperature information and CPCI case fan speed information.

And S102, the information processing control module controls the operation state of the CPCI case hardware based on the CPCI case hardware operation information.

Optionally, S102 specifically includes:

adjusting the rotation speed of a CPCI case fan according to the case temperature information;

further, when the case temperature information is greater than a preset temperature threshold and/or the current-voltage information is within a preset abnormal current-voltage interval, the CPCI case is controlled to shut down.

The embodiment of the utility model provides a realize the automatic control of CPCI machine incasement hardware, satisfied the demand that unmanned on duty system used, provide the safety guarantee to the operation of CPCI machine incasement hardware.

The fifth embodiment of the present invention provides a CPCI chassis monitoring method, as shown in fig. 5, the method includes the following steps:

s201, connecting a power supply sampling module and an information processing control module with a CPCI case, and acquiring the hardware operation information of the CPCI case through the power supply sampling module and the information processing control module.

Optionally, S201 specifically includes:

connecting the power supply sampling module with a CPCI case power supply, and acquiring current and voltage information, switch state information and case temperature information of the power supply through the power supply sampling module;

and connecting the information processing control module with a CPCI case fan, and acquiring the rotation speed information of the CPCI case fan through the information processing control module.

Wherein, the CPCI case hardware operation information includes:

current and voltage information of the power supply, switch state information, case temperature information and CPCI case fan speed information.

S202, the information processing control module sends the CPCI case hardware operation information acquired by the information processing control module and the power sampling module to a remote monitoring module for displaying.

Optionally, S202 specifically includes:

a1: the information processing control module acquires an IP address and a remote control port number of the remote monitoring module;

a2: the information processing control module establishes connection with the remote monitoring module based on the IP address and the remote control port number, and the information processing control module sends the CPCI case hardware operation information to the remote monitoring module for displaying so that a user can remotely monitor current and voltage information, on-off state information, case temperature information and CPCI case fan rotating speed information of a CPCI case power supply.

S203, generating a remote control instruction based on the operation of the user on the remote monitoring module, and sending the remote control instruction to the information processing control module by the remote monitoring module.

S204, the information processing control module controls the CPCI case hardware running state based on the remote control instruction.

The embodiment of the utility model provides a realized that the user can have clear grasp to CPCI quick-witted case internal hardware running state when long-range at remote control CPCI machine case switching on and shutting down and adjust CPCI machine case fan speed to can realize the user at long-range human intervention to CPCI machine case hardware running state, accord with humanized user demand more.

The sixth embodiment of the present invention provides a CPCI chassis monitoring method, as shown in fig. 6, the method includes the following steps:

s301, connecting a power supply sampling module and an information processing control module with a CPCI case, and acquiring the hardware operation information of the CPCI case through the power supply sampling module and the information processing control module.

Optionally, S301 specifically includes:

connecting the power supply sampling module with a CPCI case power supply, and acquiring current and voltage information, switch state information and case temperature information of the power supply through the power supply sampling module;

and connecting the information processing control module with a CPCI case fan, and acquiring the rotation speed information of the CPCI case fan through the information processing control module.

Wherein, the CPCI case hardware operation information includes:

current and voltage information of the power supply, switch state information, case temperature information and CPCI case fan speed information.

S302, the information processing control module sends the CPCI case hardware operation information acquired by the information processing control module and the power sampling module to a local display control module for displaying.

Optionally, S302 specifically includes:

and connecting the information processing control module with a local display control module, and sending the CPCI case hardware operation information to the local display control module by the information processing control module for displaying.

And S303, the local display control module generates a local control instruction based on the operation of the user and sends the local control instruction to the information processing control module.

S304, the information processing control module controls the operation state of the CPCI case hardware based on the local control instruction.

The embodiment of the utility model provides a realized that the user controls CPCI machine case switching on and shutting down and adjust CPCI machine case fan speed locally, make the user have directly perceived and clear grasp to the hardware running state in the CPCI machine case when local, and be equipped with the current and voltage information of special power sampling module collection power, on-off state information and quick-witted case temperature information, gather CPCI machine case fan speed through information processing control module alone, the accuracy of information acquisition is ensured, overcome the inaccurate technical defect of information acquisition that prior art leads to through the information acquisition of single mainboard each hardware running state information; the CPCI case can be directly controlled to be turned on and turned off locally and the rotating speed of a fan of the CPCI case can be adjusted by controlling the local display control module, so that the humanized use requirement is met.

The utility model discloses CPCI machine case monitoring method can be according to the user demand, uses the remote monitoring mode based on remote monitoring module and the monitoring mode based on local apparent accuse module that records in this embodiment as the second embodiment simultaneously to realize dual control.

In the embodiment of the utility model, the hardware running information in the CPCI case is collected through the information processing control module and the power supply sampling module, and the control of the hardware running state is carried out based on the hardware running information, thereby realizing the automatic control of the hardware in the CPCI case and providing the safety guarantee for the running of the hardware in the CPCI case; the hardware running information of the CPCI case is displayed to a user through the remote monitoring module and the local display control module respectively, so that the user can clearly master the running state of the hardware in the CPCI case no matter the user is in the local or remote state; when a user sends a control instruction to and from the remote monitoring module, the information processing control module receives the control instruction sent by the remote monitoring module and controls hardware according to the control instruction, so that the user can monitor and control the running state of the hardware in the CPCI case remotely; when a user issues a control instruction on the local display control module, the information processing control module receives the control instruction issued by the local display control module and performs hardware control according to the control instruction, so that the user can monitor and control the running state of the hardware in the CPCI case locally, thereby realizing local and remote dual monitoring, enabling the user to intervene the running state of the hardware in the CPCI case in the running process of the hardware, and meeting the humanized requirement better.

The above description is only a preferred embodiment of the present invention and is not intended to limit the present invention, and various modifications and changes may be made by those skilled in the art. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (9)

1. A CPCI chassis monitoring apparatus, the apparatus comprising: an information processing control module and a power sampling module, wherein,

the information processing control module and the power supply sampling module are used for acquiring hardware operation information of the compact peripheral component interconnect standard CPCI case;

the information processing control module is also used for controlling the hardware operation state of the CPCI case based on the CPCI case hardware operation information.

2. The CPCI chassis monitoring device of claim 1, wherein the CPCI chassis hardware operational information comprises:

current and voltage information, on-off state information, case temperature information and CPCI case fan rotating speed information of the power supply;

the CPCI case hardware operation state comprises the following steps: CPCI chassis fan speed and switch status.

3. The CPCI chassis monitoring device of claim 2, wherein the information processing control module is connected to a CPCI chassis fan, the information processing control module being configured to obtain information on a rotational speed of the CPCI chassis fan;

the power supply sampling module is connected with a CPCI case power supply and is used for acquiring current and voltage information, switch state information and case temperature information of the power supply;

the power sampling module is further configured to:

and sending the acquired current and voltage information, the acquired switch state information and the acquired case temperature information of the power supply to the information processing control module.

4. The CPCI chassis monitoring device of claim 2, wherein the information processing control module is further configured to:

adjusting the rotation speed of a CPCI case fan according to the case temperature information;

and when the case temperature information is greater than a preset temperature threshold value and/or the current and voltage information is in a preset abnormal current and voltage interval, controlling the CPCI case to shut down.

5. The CPCI chassis monitoring device of claim 1, further comprising:

the local display control module is used for receiving and displaying the CPCI case hardware operation information sent by the information processing control module;

and the local display control module is also used for generating a local control instruction based on user operation and sending the local control instruction to the information processing control module.

6. The CPCI chassis monitoring device of claim 5, wherein the information processing control module is further configured to:

and receiving the local control instruction sent by the local display control module, and controlling the hardware running state of the CPCI case according to the local control instruction.

7. The CPCI chassis monitoring device of claim 1, further comprising:

the remote monitoring module is used for receiving and displaying the CPCI case hardware operation information sent by the information processing control module;

the remote monitoring module is also used for generating a remote control instruction based on user operation and sending the remote control instruction to the information processing control module.

8. The CPCI chassis monitoring device of claim 7, wherein the information processing control module is further configured to:

and receiving the remote control instruction sent by the remote monitoring module, and controlling the hardware running state of the CPCI case according to the remote control instruction.

9. A CPCI chassis monitoring system, the system comprising: a CPCI enclosure and a CPCI enclosure monitoring device as claimed in any of claims 1 to 8.

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