CN201732285U - Dedicated controller of heat exchanging equipment - Google Patents

Abstract

A special controller for heat exchange equipment provided by the utility model is composed of an analog quantity acquisition unit, a temperature acquisition unit, a state acquisition unit, a fault acquisition unit, a CPU processor unit, a relay output unit, an analog quantity output unit, and a voice alarm output unit , fault output unit, communication interface unit, peripheral communication unit, equipment information unit, and peripheral execution unit. The equipment information unit is connected to the CPU processor unit through the analog quantity acquisition unit, temperature acquisition unit, state acquisition unit and fault acquisition unit, and then The CPU processor unit is respectively connected to the relay output unit, analog output unit, voice alarm output unit and fault output unit, and finally connected to the peripheral execution unit. Each unit of the utility model adopts a modular design, and is concentrated on the same controller, which saves the space occupied by the system, and can be completely unattended, which provides convenience for system maintenance.

Description

A dedicated controller for heat exchange equipment

1. Technical field

The utility model relates to a controller, in particular to a special controller for heat exchange equipment.

2. Background technology

At present, the heat exchange equipment controllers often use various PLC controllers. In most cases, it is necessary to expand the system by adding expansion modules that match the controller model, which increases the space occupied by the system and causes a certain amount of waste. , although a small number of individual controllers can also meet the needs, but there is no voice alarm and communication interface. After the equipment fails, it can only rely on manual inspection on site, and it cannot be unattended.

3. Contents of utility model

In view of the deficiencies in the above-mentioned prior art, the utility model provides a special controller for heat exchange equipment, which can realize the effects of reliable operation, integrated control and unattended operation.

The technical scheme adopted by the utility model to solve the technical problem is: a special controller for heat exchange equipment is composed of an analog quantity acquisition unit, a temperature acquisition unit, a state acquisition unit, a fault acquisition unit, a CPU processor unit, a relay output unit, It consists of analog output unit, voice alarm output unit, fault output unit, communication interface unit, peripheral communication unit, equipment information unit, and peripheral execution unit. The equipment information unit passes through analog quantity acquisition unit, temperature acquisition unit, status acquisition unit and fault acquisition unit. The unit is connected to the CPU processor unit, and then the CPU processor unit is connected to the relay output unit, analog output unit, voice alarm output unit and fault output unit, and finally connected to the peripheral execution unit, and the CPU processor is also connected to the communication interface unit to peripheral communication unit.

The beneficial effect of the utility model is that the modular design of each unit is concentrated on the same controller, which saves the space occupied by the system and avoids waste. In addition, the integrated voice alarm unit and communication interface unit can realize good on-site monitoring , to achieve data sharing, it can be completely unattended, which provides convenience for system maintenance.

4. Description of drawings

Accompanying drawing 1 is the principle structural diagram of the present utility model.

In the figure, 1. Analog quantity acquisition unit, 2. Temperature acquisition unit, 3. State acquisition unit, 4. Fault acquisition unit, 5. CPU processor unit, 6. Relay output unit, 7. Analog quantity output unit, 8. Voice alarm output unit, 9. Fault output unit, 10. Communication interface unit, 11. Peripheral communication unit, 12. Equipment information unit, 13. Peripheral execution unit.

5. Specific implementation

Below with reference to accompanying drawing 1, a kind of special controller of heat exchange equipment of the present utility model is described in detail below.

As shown in accompanying drawing 1, a kind of heat exchange equipment of the present utility model and controller are by analog acquisition unit (1), temperature acquisition unit (2), state acquisition unit (3), fault acquisition unit (4) , CPU processor unit (5), relay output unit (6), analog output unit (7), voice alarm output unit (8), fault output unit (9), communication interface unit (10), peripheral communication unit ( 11), equipment information unit (12), peripheral execution unit (13), equipment information unit (12) through analog acquisition unit (1), temperature acquisition unit (2), state acquisition unit (3) and fault acquisition unit (4) Connect to the CPU processor unit (5), and then the CPU processor unit (5) is respectively connected to the relay output unit (6), analog output unit (7), voice alarm output unit (8) and fault output unit (9) Finally, it is connected to the peripheral execution unit (13), and the CPU processor (5) also connects the communication interface unit (10) to the peripheral communication unit (11).

During normal operation, first collect various information of the equipment information unit (12) through the analog quantity acquisition unit (1), temperature acquisition unit (2), status acquisition unit (3), and fault acquisition unit (4), and then transmit it to the CPU The processor unit (5) performs processing, and then the CPU processor unit (5) controls the relay output unit (6), the analog output unit (7), the voice alarm output unit (8), and the fault output unit (9) according to the site requirements. ) to the peripheral execution unit (13), thereby realizing the normal operation of the device.

When a fault occurs or a warning needs to be issued, the CPU processor unit (5) outputs through the voice alarm output unit (8) according to the information collected by the fault acquisition unit (4), and communicates with the peripheral communication unit through the communication interface unit (10) (11) Connect to realize data sharing and remote real-time monitoring.

It should be noted that the above embodiments are only used to illustrate the technical solution of the utility model without limitation, and any modification or equivalent replacement of the technical solution of the utility model should be done without departing from the spirit and scope of the technical solution of the utility model. It falls within the scope of the claims of the present utility model.

Claims (2)

1. A dedicated controller for heat exchange equipment is composed of an analog acquisition unit, a temperature acquisition unit, a state acquisition unit, a fault acquisition unit, a CPU processor unit, a relay output unit, an analog output unit, a voice alarm output unit, and a fault output Unit, communication interface unit, peripheral communication unit, equipment information unit, and peripheral execution unit. Then the CPU processor unit is respectively connected to the relay output unit, analog output unit, voice alarm output unit and fault output unit, and finally connected to the peripheral execution unit. 2. A dedicated controller for heat exchange equipment according to claim 1, characterized in that: the CPU processor also connects the communication interface unit to the peripheral communication unit.

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