CN209960710U - Integrated controller of electrode humidifier and far infrared humidifier - Google Patents

Abstract

The utility model belongs to the technical field of humidification control, the controller that aims at solving current electrode humidifier and far infrared humidifier adopts independent control respectively and easily causes the replacement of controller under specific scene poor, the problem of being not convenient for change and maintenance. Therefore, the utility model provides an electrode humidifier and far infrared humidifier's integrated control ware, this integrated control ware includes control processing unit and the first parameter input interface subassembly of being connected with control processing unit, second parameter input interface subassembly, first instruction output interface subassembly and second instruction output interface subassembly, first parameter input interface subassembly is selectively connected with the electrode humidifier, second parameter input interface subassembly is selectively connected with the far infrared humidifier, first instruction output interface subassembly and second instruction output interface subassembly are all selectively connected with electrode humidifier and/or far infrared humidifier. The utility model discloses make the replacement of controller good, the user's of being convenient for maintenance.

Description

Integrated controller of electrode humidifier and far infrared humidifier

Technical Field

The utility model belongs to the technical field of the humidification control, specifically provide an electrode humidifier and far infrared humidifier's integrated control ware.

Background

The humidifier is a device capable of adjusting the environment humidity, the application range of the humidifier is very wide, the types of the humidifier are many, different types of humidifiers can be adopted in different scenes, for example, in a machine room air conditioner, the two types of humidifiers which are most commonly used are an electrode humidifier and a far infrared humidifier. The electrode humidifier is characterized in that an electrified electrode is inserted into water, the water is used as a conductive resistor and is heated to boil to generate clean steam, so that air is humidified, the water level of a humidification cavity can be changed by controlling water inlet and water discharge to change humidification quantity, proportional control or switch control can be adopted, and the electrode humidifier structurally specifically comprises a water inlet valve, a water discharge valve, a heating electrode, a high water level electrode, a humidification current transformer and the like; the far infrared humidifier heats and steams water by utilizing far infrared radiation energy generated by electrifying a far infrared lamp tube, generally adopts switch control, and specifically comprises a water inlet valve, a water discharge valve (optional), a far infrared lamp tube, a thermal protection switch, a high-low water level switch and the like.

In the prior art, the controller of the electrode humidifier and the controller of the far infrared humidifier are both independently controlled, and the air conditioner in the machine room generally only adopts one humidifier, but the type of the humidifier is possibly changed in the use process, that is, if the electrode humidifier is currently used, a new controller needs to be installed again when the electrode humidifier is changed into the far infrared humidifier, and similarly, if the far infrared humidifier is currently used, a new controller needs to be installed again when the electrode humidifier is changed into the electrode humidifier, because the controller structure of the electrode humidifier is different from that of the far infrared humidifier, and the installation position and the installation mode in the air conditioner in the machine room are different, the air conditioner in the machine room cannot be conveniently used when the type of the humidifier is changed, the substitution is poor, and a relatively large space is needed to accommodate the controllers of different types of humidifiers, or the structure for installing the controller needs to be modified when the humidifier is replaced, which is very unfavorable for the consistency design of the air conditioner in the machine room and brings great inconvenience to designers, maintenance personnel and users.

Therefore, there is a need in the art for an integrated controller of an electrode humidifier and a far infrared humidifier to solve the above problems.

SUMMERY OF THE UTILITY MODEL

In order to solve the above problems in the prior art, i.e. to solve the problems that the replacement and maintenance of the controller of the conventional electrode humidifier and the controller of the far infrared humidifier are inconvenient due to the fact that the controller is poor in replacement and maintenance under a specific scene because the controllers are independently controlled, the utility model provides a comprehensive controller of the electrode humidifier and the far infrared humidifier, which comprises a control processing unit, and a first parameter input interface component, a second parameter input interface component, a first instruction output interface component and a second instruction output interface component which are connected with the control processing unit, wherein the first parameter input interface component is selectively connected with the electrode humidifier, the second parameter input interface component is selectively connected with the far infrared humidifier, and the first instruction output interface component is selectively connected with the electrode humidifier and/or the far infrared humidifier, the second instruction output interface component is selectively connected with the electrode humidifier and/or the far infrared humidifier.

In a preferred technical solution of the above-mentioned integrated controller, the first parameter input interface component includes a first parameter input interface and a second parameter input interface, the first parameter input interface is selectively connected to the electrode humidifier, the first parameter input interface is capable of receiving a humidification current detection signal of the electrode humidifier, the second parameter input interface is selectively connected to the electrode humidifier, and the second parameter input interface is capable of receiving a high water level electrode detection signal of the electrode humidifier.

In an optimal technical scheme of the above integrated controller, the second parameter input interface component includes a third parameter input interface, the third parameter input interface is selectively connected with the far infrared humidifier, and the third parameter input interface can receive a high water level detection signal, a low water level detection signal and a thermal protection detection signal of the far infrared humidifier.

In a preferred technical solution of the above-mentioned integrated controller, the first instruction output interface component includes a first instruction output interface, the first instruction output interface is selectively connected with the electrode humidifier and/or the far-infrared humidifier, and the first instruction output interface can output an electrode control instruction and a far-infrared lamp tube control instruction.

In a preferred technical solution of the above-mentioned integrated controller, the second instruction output interface component includes a second instruction output interface, the second instruction output interface is selectively connected with the electrode humidifier and/or the far infrared humidifier, and the second instruction output interface can output a water inlet valve control instruction and a drain valve control instruction.

In a preferred embodiment of the above-mentioned integrated controller, the integrated controller further includes a manual drain switch input interface connected to the control processing unit.

In a preferred embodiment of the above-mentioned integrated controller, the integrated controller further includes a drain switch connected to the input interface of the manual drain switch.

In a preferred technical solution of the above-mentioned integrated controller, the integrated controller further includes a signal input interface connected to the control processing unit, and the signal input interface can receive control instructions of the electrode humidifier and the far infrared humidifier.

In a preferred embodiment of the above-mentioned integrated controller, the integrated controller further includes a communication interface connected to the control processing unit.

In a preferred technical solution of the above-mentioned integrated controller, the integrated controller further includes an alarm output interface connected to the control processing unit.

As can be understood by those skilled in the art, in the preferred technical solution of the present invention, by using the integrated controller of the present invention, the electrode humidifier can be controlled when being connected with the electrode humidifier alone, the far infrared humidifier can be controlled when being connected with the far infrared humidifier alone, and the electrode humidifier and the far infrared humidifier can be controlled simultaneously when being connected with the electrode humidifier and the far infrared humidifier simultaneously, so that only one mounting structure for mounting the integrated controller of the present invention needs to be arranged in a specific scene (for example, in a machine room air conditioner), and when the machine room air conditioner changes the type of the humidifier, the integrated controller of the present invention does not need to be disassembled, only the humidifier needs to be connected with the corresponding interface component on the integrated controller, which is convenient for the user to use, and when the controller is changed, only need pull down original comprehensive control ware to install a new comprehensive control ware in original position can, maintain the utility model discloses a during the comprehensive control ware, only need pull down comprehensive control ware, maintain after good install back original position can, the utility model discloses a comprehensive control ware substitution is good, the user's of being convenient for use promotes user experience. Furthermore, adopt the utility model discloses a uniformity of production can be realized to the integrated control ware, and the production standardization level is high, and production efficiency is high.

Furthermore, through setting up manual drainage switch interface for this manual drainage switch interface can connect the drainage switch, uses a period of back at the humidifier, can control the humidifier drainage through operation drainage switch, avoids the incrustation scale in the humidifier to gather, avoids influencing the humidification performance of humidifier, simultaneously, also can force the drainage when maintaining and changing the humidifier, thereby the user of being convenient for maintains and changes the humidifier, further promotes user experience.

Furthermore, the alarm output interface is arranged to output the alarm instruction, so that the alarm instruction is timely sent out when the humidifier breaks down or is damaged, the humidifier is convenient to inspect and maintain by maintenance personnel, normal use of the humidifier is prevented from being influenced, and user experience is further improved.

Drawings

The preferred embodiments of the present invention will be described below with reference to the accompanying drawings, in which:

fig. 1 is a schematic structural diagram of the integrated controller of the electrode humidifier and the far infrared humidifier for the air conditioner in the machine room of the present invention.

Detailed Description

First of all, it should be understood by those skilled in the art that these embodiments are only for explaining the technical principle of the present invention, and are not intended to limit the scope of the present invention. For example, although the utility model discloses a combined controller who combines computer lab idle call electrode humidifier and far infrared humidifier explains the explanation, however, the utility model discloses an electrode humidifier and far infrared humidifier's combined controller obviously can also be applied to architectural equipment, intelligent house equipment and industrial production equipment etc. and this kind of change of using the object is not skew the technical scheme of the utility model, all should be injectd within the protection scope.

It should be noted that, in the description of the present invention, the terms "first", "second" and "third" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.

Furthermore, it should be noted that, in the description of the present invention, unless otherwise explicitly specified or limited, the terms "disposed," "mounted," and "connected" are to be construed broadly, and may be, for example, fixedly connected, detachably connected, or integrally connected; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meaning of the above terms in the present invention can be understood by those skilled in the art according to specific situations.

The controller of current computer lab idle call electrode humidifier and the controller of far infrared humidifier that point out based on the background art adopt independent control respectively and easily cause the replacement of controller under specific scene poor, the problem of being not convenient for change and maintenance, the utility model provides an electrode humidifier and far infrared humidifier's integrated control ware aims at making the replacement of controller good, and the user's of being convenient for use promotes user experience.

Specifically, the utility model discloses an integrated controller includes control processing unit and the first parameter input interface module who is connected with control processing unit, second parameter input interface module, first instruction output interface module and second instruction output interface module, first parameter input interface module selectively is connected with the electrode humidifier, second parameter input interface module selectively is connected with the far infrared humidifier, first instruction output interface module selectively is connected with electrode humidifier and/or far infrared humidifier, second instruction output interface module selectively is connected with electrode humidifier and/or far infrared humidifier. Wherein, the utility model discloses a comprehensive controller can set up alone, also can set up with the controller integration of computer lab air conditioner, and the technical personnel in the field can set up the mode that sets up of comprehensive controller in practical application in a flexible way, as long as can enough control the electrode humidifier through comprehensive controller, can control the far infrared humidifier again can. In addition, the first parameter input interface component may have only one interface or a plurality of interfaces for connecting with the electrode humidifier, the second parameter input interface component may have only one interface or a plurality of interfaces for connecting with the far infrared humidifier, the first command output interface component and the second command output interface component may have only one interface or a plurality of interfaces for connecting with the electrode humidifier and/or the far infrared humidifier, that is, the first parameter input interface component, the second parameter input interface component, the first command output interface component and the second command output interface component may be connected with the electrode humidifier and/or the far infrared humidifier separately or simultaneously, and those skilled in the art may flexibly set the number of interfaces and the installation connection manner of the first parameter input interface component, the second parameter input interface component, the first command output interface component and the second command output interface component in practical application, as long as pass through the utility model discloses an integrated controller can enough control the electrode humidifier, can control the far infrared humidifier again.

It should be noted that the electrode humidifier includes a humidification chamber, a humidification electrode, a current transformer, a high water level sensor, a water inlet valve and a water discharge valve, the humidification chamber is used for accommodating water, the humidification electrode is inserted into the water to heat the water, the current transformer can detect the current between the humidification electrodes, the high water level sensor can detect the high water level in the humidification chamber, and the water inlet valve and the water discharge valve are used for controlling the water inlet and the water discharge of the humidification chamber. The far infrared humidifier comprises a humidification cavity, a far infrared humidification lamp tube, a water inlet valve, a water discharge valve (the water discharge valve can not be arranged), a high water level sensor, a low water level sensor and a heat protection switch, wherein the humidification cavity is used for containing water, the far infrared humidification lamp tube heats the water in a far infrared radiation mode, the water inlet valve and the water discharge valve are used for controlling water inlet and outlet of the humidification cavity, the high water level sensor can detect the high water level in the humidification cavity, the low water level sensor can detect the low water level in the humidification cavity, and the heat protection switch can prevent overheating and dry burning.

Preferably, as shown in fig. 1, the utility model discloses a first parameter input interface subassembly of integrated controller includes first parameter input interface and second parameter input interface, and first parameter input interface selectively is connected with the electrode humidifier, and first parameter input interface can receive the humidification current detection signal of electrode humidifier, and second parameter input interface selectively is connected with the electrode humidifier, and second parameter input interface can receive the high water level electrode detection signal of electrode humidifier. In practical application, when the electrode humidifier is connected to the integrated controller, the current transformer may be connected to the first parameter input interface, the high water level sensor may be connected to the second parameter input interface, that is, the first parameter input interface is a humidification current detection interface of the electrode humidifier, the second parameter input interface is a high water level detection interface of the electrode humidifier, the current detected by the current transformer is transmitted to the control processing unit through the humidification current detection interface, and the water level information detected by the high water level sensor is transmitted to the control processing unit through the high water level detection interface. Certainly, in practical applications, if the electrode humidifier has other detection elements, the number of the interfaces in the first parameter input interface assembly may also be increased, so that information detected by all the detection elements in the electrode humidifier is transmitted to the control processing unit through the corresponding interfaces.

Preferably, with continued reference to fig. 1, the second parameter input interface assembly of the integrated controller of the present invention comprises a third parameter input interface, the third parameter input interface is selectively connected to the far infrared humidifier, and the third parameter input interface can receive the high water level detection signal, the low water level detection signal and the thermal protection detection signal of the far infrared humidifier. In practical application, when the far infrared humidifier is connected to the integrated controller, the high water level sensor, the low water level sensor and the thermal protection switch can be connected to the third parameter input interface at the same time, and at this time, the third parameter input interface can be set as an integrated input interface (i.e. share one interface, since the types of the connected signals are the same), namely, the third parameter input interface is an input interface for high water level detection, low water level detection and thermal protection detection, the high water level detected by the high water level sensor, the low water level detected by the low water level sensor and the information detected by the thermal protection switch are transmitted to the control processing unit through the high water level detection input interface, the low water level detection input interface and the thermal protection input interface, of course, the integrated interface may be replaced by three independent parameter input interfaces, and each detection element is connected to a corresponding parameter input interface. In addition, in practical application, if the far infrared humidifier has other detection elements, the number of the interfaces in the second parameter input interface component can be increased, so that information detected by all the detection elements in the far infrared humidifier is transmitted to the control processing unit through the corresponding interfaces.

Preferably, with continued reference to fig. 1, the utility model discloses a first instruction output interface subassembly of integrated controller includes first instruction output interface, and first instruction output interface selectively is connected with electrode humidifier and/or far infrared humidifier, and first instruction output interface can output electrode control command and far infrared lamp pipe control command. In practical application, when the electrode humidifier is connected to the integrated controller, the humidifying electrode may be connected to the first command output interface, when the far infrared humidifier is connected to the integrated controller, the far infrared lamp tube may be connected to the first command output interface, and the first command output interface may be an integrated output interface, that is, at least one of the humidifying electrode and the far infrared lamp tube may be connected, that is, the first command output interface is an electrode/lamp tube contactor coil control interface, and the electrode/far infrared lamp tube contactor coil control interface may be used to transmit the electrode humidifying control command of the control processing unit to the humidifying electrode and transmit the far infrared humidifying command of the control processing unit to the far infrared lamp tube, and of course, the integrated output interface may be replaced by two independent command output interfaces, each execution element is connected with a corresponding instruction output interface. In addition, in practical application, if the electrode humidifier and/or the far infrared humidifier have other humidification actuators, the number of interfaces in the first instruction output interface component may be increased, so that all control instructions of the control processing unit are sent to all humidification actuators in the electrode humidifier and/or the far infrared humidifier through corresponding interfaces.

Preferably, with continued reference to fig. 1, the second command output interface assembly of the integrated controller of the present invention comprises a second command output interface, the second command output interface is selectively connected to the electrode humidifier and/or the far infrared humidifier, and the second command output interface can output a water inlet valve control command and a water discharge valve control command. In practical application, when the electrode humidifier is connected to the integrated controller, the water inlet valve and the water discharge valve of the electrode humidifier can be connected to the second instruction output interface, and when the far infrared humidifier is connected to the integrated controller, the far infrared water inlet valve and the far infrared water discharge valve can be connected to the second instruction output interface, that is, the second instruction output interface is a water inlet and discharge control interface, and the water inlet and discharge control instruction of the control processing unit can be transmitted to the water inlet valve and the water discharge valve of the electrode humidifier and can be transmitted to the water inlet valve and the water discharge valve of the far infrared humidifier.

Preferably, with continued reference to fig. 1, the integrated controller of the present invention further comprises a manual drain switch input interface connected to the control processing unit. The manual drain switch input interface is selectively connected with the drain switch, wherein the drain switch can be a part of the integrated controller, namely the drain switch is arranged on a shell or a control panel of the integrated controller, of course, the drain switch can also be arranged at other positions of the air conditioner of the machine room, as long as the manual operation can be performed, so that the drain switch triggers the action and transmits the action instruction to the control processing unit through the manual drain switch input interface, and finally the control processing unit controls the electrode humidifier and/or the far infrared humidifier to perform the drain operation.

Preferably, with continued reference to fig. 1, the integrated controller of the present invention further includes a signal input interface connected to the control processing unit, and the signal input interface can receive control commands of the electrode humidifier and the far infrared humidifier. The controller of computer lab air conditioner passes through the signal input interface can to the utility model discloses a comprehensive controller carries control command, and then control the humidifier and carry out the humidification operation, particularly, the signal type of signal input interface can be switching signal, voltage analog signal (for example 0-10V analog signal, 0-5V analog signal or 2-10V analog signal etc.) and current analog signal (for example 4-20mA analog signal or 0-20mA analog signal etc.), wherein, switching signal is the work of on-off control humidifier, and voltage analog signal and current analog signal are the work of proportional control humidifier.

Preferably, with continued reference to fig. 1, the integrated controller of the present invention further includes a communication interface connected to the control processing unit. The communication interface can be connected with a communicator, the communicator can be communicated with a controller of the machine room air conditioner or a controller of a central control room, so that a control instruction sent by the controller of the machine room air conditioner or the controller of the central control room is received through the communicator and the communication interface, and in addition, information can be sent to the controller of the machine room air conditioner or the controller of the central control room through the communicator and the communication interface so as to report the working state of the humidifier.

Preferably, with continued reference to fig. 1, the integrated controller of the present invention further comprises an alarm output interface connected to the control processing unit. The alarm output interface is selectively connected with the alarm indicator lamp, and the alarm output signal can provide normally open and normally closed signal types through the passive dry contact of the relay and is indicated through the alarm indicator lamp. Wherein, the warning indicator lamp can set up on integrated control ware, can also place other positions at the computer lab air conditioner for the user can clearly see can.

The working principles of the electrode humidifier and the far infrared humidifier are explained below respectively. When electrode humidifier inserts the utility model discloses a during integrated controller, humidification electrode in the electrode humidifier passes through humidification electrode contactor coil switch-on actuation and the circular telegram heats, detect the humidification current according to current transformer, control water intaking valve and drain valve's action, when the electric current is less than the definite value of humidification rated current, the water intaking valve is opened, to moisturizing intracavity, along with the increase of water level, the humidification current increases, when the electric current exceeds the definite value of rated current, the water intaking valve is closed, stop intaking, when the water level of intaking reaches high water level, then open the drain valve drainage and wash, when the humidifier current overload appears, the electric current is low excessively, when reporting to the police such as high water level, outwards send alarm signal, all processes all control through control processing unit. When the far infrared humidifier is connected with the integrated controller of the utility model, the far infrared humidifying lamp tube in the far infrared humidifier is switched on and attracted by the coil of the lamp tube contactor to be electrified for radiation heating, the water level float switch of the humidifier controls the action of the water inlet valve and the water discharge valve, when the water level is lower than the low water level, the water inlet valve is opened to supply water to the humidifying cavity, along with the increase of the water level, when the high water level position of the water level is reached, the high water level switch signal is switched on, the water inlet valve is closed to stop water supply, along with the progress of humidification, water is continuously evaporated, the water level is reduced, when the low water level is reached, water supply is started again, and the humidification is repeated and continuously performed, meanwhile, the state of the thermal protection switch is continuously monitored, extreme conditions such as dry burning and overheating occur, the thermal protection switch is switched, all processes are controlled by a control processing unit. No matter the electrode humidifier or the far infrared humidifier is adopted, impurities and water scales can appear after the electrode humidifier or the far infrared humidifier is used for a period of time, and at the moment, the humidifying cavity can be cleaned by forcibly discharging water through the water discharging switch. Meanwhile, in order to facilitate the compatibility of coil voltages of the water inlet valve and the water discharge valve of each humidifier, the output is in a relay form, and a passive dry node is provided.

Furthermore, in the present invention, all the input and output interfaces may be in the form of terminals, and preferably are plug-in connection terminals, thereby facilitating field installation and replacement.

It should be pointed out especially that, the utility model discloses in can all directly save in the control processing unit to the control program of humidifier, this kind of program write in and the program reading to the control processing unit all can be directly accomplished through current software, the write in and the reading mode of concrete software do not constitute right the utility model discloses an any restriction.

So far, the technical solution of the present invention has been described with reference to the preferred embodiments shown in the drawings, but it is easily understood by those skilled in the art that the scope of the present invention is obviously not limited to these specific embodiments. Without departing from the principle of the present invention, a person skilled in the art can make equivalent changes or substitutions to the related technical features, and the technical solutions after these changes or substitutions will fall within the protection scope of the present invention.

Claims (10)

1. The utility model provides an electrode humidifier and far infrared humidifier's integrated control ware, its characterized in that, integrated control ware includes control processing unit and with first parameter input interface assembly, second parameter input interface assembly, first instruction output interface assembly and the second instruction output interface assembly that control processing unit connects, first parameter input interface assembly selectively with the electrode humidifier is connected, second parameter input interface assembly selectively with the far infrared humidifier is connected, first instruction output interface assembly selectively with the electrode humidifier and/or the far infrared humidifier is connected, second instruction output interface assembly selectively with the electrode humidifier and/or the humidifier far infrared is connected.

2. The integrated controller of claim 1, wherein the first parameter input interface assembly comprises a first parameter input interface selectively connectable with the electrode humidifier, the first parameter input interface capable of receiving a humidification current detection signal of the electrode humidifier, and a second parameter input interface selectively connectable with the electrode humidifier, the second parameter input interface capable of receiving a high water level electrode detection signal of the electrode humidifier.

3. The integrated controller of claim 1, wherein the second parameter input interface assembly comprises a third parameter input interface selectively connectable with the far infrared humidifier, the third parameter input interface capable of receiving a high water level detection signal, a low water level detection signal and a thermal protection detection signal of the far infrared humidifier.

4. The integrated controller of claim 1, wherein the first command output interface assembly comprises a first command output interface selectively connectable with the electrode humidifier and/or the far infrared humidifier, the first command output interface capable of outputting electrode control commands and far infrared lamp control commands.

5. The integrated controller of claim 1, wherein the second command output interface assembly comprises a second command output interface selectively coupled to the electrode humidifier and/or the far infrared humidifier, the second command output interface capable of outputting inlet valve control commands and drain valve control commands.

6. The integrated controller of claim 1, further comprising a manual drain switch input interface connected to the control processing unit.

7. The integrated controller of claim 6, further comprising a drain switch connected to the manual drain switch input interface.

8. The integrated controller according to claim 1, further comprising a signal input interface connected to the control processing unit, wherein the signal input interface is capable of receiving control commands of the electrode humidifier and the far infrared humidifier.

9. The integrated controller according to claim 1, further comprising a communication interface connected to the control processing unit.

10. The integrated controller according to claim 1, further comprising an alarm output interface connected to the control processing unit.

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