CN107477648A - A kind of method of work for the heating system that can carry out wireless monitor in real time - Google Patents

Abstract

The invention discloses a kind of method of work for the heating system that can carry out wireless monitor in real time, comprise the following steps：1）Boiler starts feedwater heating；2）The first water inlet pipe magnetic valve, the first main water inlet tube magnetic valve and the first main water return tube magnetic valve are opened successively；3）Radiator enters hot water, heating；4）Controller receives the data of first flow sensor and temperature display adjusting means；5）Temperature display adjusting means sets heating temperature, and controller adjusts the inflow of the first water inlet pipe magnetic valve；6）The hot water of boiler enters radiator by the first main water inlet tube, water collecting and diversifying device, tie point water inlet pipe, radiator water inlet pipe；7）Hot water enters boiler from radiator return pipe, tie point return pipe, water collecting and diversifying device and the first main water return tube；8）Heat continuous repeat step 4）‑7）.

Description

A kind of method of work for the heating system that can carry out wireless monitor in real time

Technical field

The invention belongs to heating technology field, more particularly to a kind of work for the heating system that can carry out wireless monitor in real time Make method.

Background technology

The winter either north or south, most area are in cold, and factory floor is even more to be in one Kind is similar to outdoor working environment, the employee of shopwork, it is also often desirable to carry the workpiece such as metalwork, therefore often go out The situation of existing frostbite, when serious, workshop can not normally be produced, due to the working environment of supercooling, lubricating oil up to not To assigned temperature, it is impossible to ensure the service behaviour of machine, but heating needs to consume mass energy on a large scale in workshop, this The increased very heavy production cost of enterprise is given again, therefore it is urgently to be resolved hurrily ask to provide a energy-efficient workshop heating system Topic.

The content of the invention

Goal of the invention：In order to overcome the above insufficient, it is an object of the invention to provide one kind can carry out wireless monitor in real time Heating system method of work, each workbench sets independent radiator and inlet and outlet pipe, both may be used by this method of work Some radiator can also individually be closed with subregion turning off steam, the controller and temperature control system of setting, using flexible, simultaneously The monitoring unit of setting can monitor each radiator temperature, avoid some areas radiator temperature too high.It is simple to operate, it is adapted to big Type workshop, heating area and temperature can be adjusted flexibly, be adapted to factory floor to use, while save resource again, the monitoring of setting Unit being capable of real-time monitoring temperature.

Technical scheme：A kind of method of work for the heating system that can carry out wireless monitor in real time, the method for work Equipment includes radiator, controller, first flow sensor, the first water inlet pipe magnetic valve, power supply, temperature display regulation dress Put, the first water outlet pipe valve, water collecting and diversifying device, the first main water inlet tube magnetic valve, the first main water return tube magnetic valve, boiler, first lead into Water pipe, the first main water return tube, tie point water inlet pipe, tie point return pipe, radiator water inlet pipe, radiator return pipe, car Between and workbench, the controller and first flow sensor and the first water inlet pipe magnetic valve be electrically connected with, the power supply and temperature Spend vision-control device to be electrically connected with controller, water inlet and the radiator water inlet pipe of the radiator are connected, and radiator Water inlet pipe is provided with first flow sensor and the first water inlet pipe magnetic valve, delivery port and the radiator return pipe of the radiator Connection, and radiator return pipe is provided with the first water outlet pipe valve, the radiator water inlet pipe connects with tie point water inlet pipe, institute State radiator return pipe to connect with tie point return pipe, the tie point water inlet pipe and tie point return pipe are respectively with dividing The water side connection of water collector, the water inlet end of the water collecting and diversifying device is connected with the first main water inlet tube and the first main water return tube, described First main water inlet tube is connected by the delivery port of the first main water inlet tube magnetic valve and boiler, and first main water return tube passes through first The water return outlet of main water return tube magnetic valve and boiler connects；One group of workbench is provided with the workshop, the workbench is correspondingly provided with Radiator, wherein, the heating system also includes temperature sensor, radio communication unit and host computer monitoring unit, the temperature Degree sensor is arranged on radiator, and is electrically connected with controller, and the radio communication unit is controlled device and host computer Communication between monitoring unit；

The method of work of the heating system that wireless monitor can be carried out in real time, comprises the following steps：

1）Boiler starts feedwater heating；

2）The first water inlet pipe magnetic valve, the first main water inlet tube magnetic valve and the first main water return tube magnetic valve are opened successively；

3）Radiator enters hot water, heating；

4）Controller receives the data of first flow sensor and temperature display adjusting means；

5）Temperature display adjusting means sets heating temperature, and controller adjusts the inflow of the first water inlet pipe magnetic valve；

6）The hot water of boiler enters heating by the first main water inlet tube, water collecting and diversifying device, tie point water inlet pipe, radiator water inlet pipe Piece；

7）Hot water enters boiler from radiator return pipe, tie point return pipe, water collecting and diversifying device and the first main water return tube；

8）Heat continuous repeat step 4）-7）.

This method of work, controller can be according to the temperature adjustment hot water inflows of setting, and flexible adjustment is convenient, Neng Goujing Really set, while different temperature can be set according to different operating positions, adapt to multiple workbench and be used alone.

The method of work of the energy-saving workshop heating system of the present invention, single radiator is provided with each workbench, Can be that workbench heats, and each radiator can be switched individually, when workbench does not work, can be stopped supplying by heating It is warm, resource is saved, while flow sensor and temperature display adjusting means are provided with each radiator, it can be adjusted flexibly every The temperature of piece radiator, so as to carry out the reasonable distribution of resource, waste of resource is avoided, the temperature detecting unit of setting can be real When monitor each radiator temperature.

Further, the present invention also provides a kind of method of work for the heating system that can carry out wireless monitor in real time, also Comprise the following steps：

9）When the workbench in workshop does not work, radiator corresponding to the workbench can be closed.

Each workbench is separately provided heating, for the workshop spread the work, can close the radiator of the workbench, so Resource can be saved.

Further, the present invention also provides a kind of method of work for the heating system that can carry out wireless monitor in real time, also Comprise the following steps：

10）In heating process, temperature sensor constantly gathers water temperature data and sent to controller,

Controller is constantly carried out data transmission by radio communication unit with host computer monitoring unit, the monitoring of host computer monitoring unit Temperature.

The temperature monitoring unit of setting, temperature everywhere can be detected in real time, while be compared with workbench working condition, Avoid the occurrence of workbench do not work heating unlatching situation, waste of resource, increase cost.

Further, the above-mentioned heating system that can carry out wireless monitor in real time, the radiator return pipe are provided with the Two flow sensors.Flow sensor is set in the return pipe of radiator, the flow of return pipe can be monitored, avoid causing backwater more In water inlet, cause there is no hot water in radiator, influence to heat.

Further, the above-mentioned heating system that can carry out wireless monitor in real time, the boiler are provided with temperature control Device.The temperature controller of setting can adjust the temperature of boiler, so as to the temperature of integrally-regulated hot water, reach control heating heating Effect.

Further, the above-mentioned heating system that can carry out wireless monitor in real time, the second master is additionally provided with the boiler Water inlet pipe and the second main water return tube.Other group of water inlet pipe and return pipe set, can be that factory provides hot water, example elsewhere Such as hand washing sink.

Further, the above-mentioned heating system that can carry out wireless monitor in real time, second main water inlet tube and second Main water return tube is connected with workshop hand washing sink.In order to further improve the working environment of shopwork employee, hot water can be provided Hand washing sink, avoid being washed one's hands with cold water, so as to greatly improve the comfort level of staff.

Further, the above-mentioned heating system that can carry out wireless monitor in real time, the radiator water inlet pipe are provided with Automatic blow off valve valve air relief.The automatic blow off valve valve air relief of setting can automatically be deflated according to the temperature in radiator, avoid radiator or water Gas is excessive in pipe, influences the heating effect of heating.

Further, the above-mentioned heating system that can carry out wireless monitor in real time, the radiator, the first main water inlet Pipe, the first main water return tube, tie point water inlet pipe, tie point return pipe, radiator water inlet pipe and radiator return pipe it is outer Surface scribbles anticorrosive paint.In order to ensure the attractive in appearance of radiator while prevent radiator surface from using quilt for a long time in workshop Corrosion, anticorrosive paint is set.

Above-mentioned technical proposal can be seen that the present invention and have the advantages that：It is of the present invention to carry out in real time The method of work of the heating system of wireless monitor, automaticity is high, more enough temperature for individually adjusting radiator in real time, according to not The different heating temperature of same table set, can save most of resource, using flexible, avoid overall heating, some areas Overheat, causes overall workshop uneven in temperature, influences working effect, and used method of work is easy to operate, adapts to factory floor Use, workable, the heating for being capable of monitoring platform opens situation, for not having in harness workbench, closes in time warm Gas, save resource.

Brief description of the drawings

Fig. 1 is the structural representation of the heating system of the present invention that can carry out wireless monitor in real time；

Fig. 2 is the workshop radiator layout of the heating system of the present invention that can carry out wireless monitor in real time；

In figure：1 radiator, 2 controllers, 3 first flow sensors, 4 first water inlet pipe magnetic valves, 5 power supplys, 6 temperature displays are adjusted Regulating device, 7 second flow sensors, 8 first water outlet pipe valves, 9 water collecting and diversifying devices, 10 first main water inlet tube magnetic valves, 11 first masters Return pipe magnetic valve, 12 boilers, 13 temperature controllers, 14 first main water inlet tubes, 15 first main water return tubes, the water inlet of 16 tie points Pipe, 17 tie point return pipes, 18 radiator water inlet pipes, 19 radiator return pipes, 20 second main water inlet tubes, 21 second main backwater Pipe, 22 workshop hand washing sinks, 23 temperature sensors, 24 radio communication units, 25 host computer monitoring unit, 100 workshops, 200 work Platform.

Embodiment

Embodiments of the invention are described below in detail, the example of the embodiment is shown in the drawings, wherein from beginning to end Same or similar label represents same or similar element or the element with same or like function.Below with reference to attached The embodiment of figure description is exemplary, it is intended to for explaining the present invention, and is not considered as limiting the invention.

In the description of the invention, it is to be understood that term " " center ", " longitudinal direction ", " transverse direction ", " length ", " width ", " thickness ", " on ", " under ", "front", "rear", "left", "right", " vertical ", " level ", " top ", " bottom " " interior ", " clockwise ", " inverse The orientation or position relationship of the instructions such as hour hands " are based on orientation shown in the drawings or position relationship, are for only for ease of description originally Invent and simplify description, rather than the device or element of instruction or hint meaning there must be specific orientation, with specific side Position construction and operation, therefore be not considered as limiting the invention.

In addition, term " first ", " second " are only used for describing purpose, and it is not intended that instruction or hint relative importance Or the implicit quantity for indicating indicated technical characteristic.Thus, define " first ", the feature of " second " can be expressed or Implicitly include one or more this feature.In the description of the invention, unless otherwise indicated, " multiple " are meant that two Individual or two or more, limited unless otherwise clear and definite.

In the present invention, unless otherwise clearly defined and limited, term " installation ", " connected ", " connection ", " fixation " etc. Term should be interpreted broadly, for example, it may be being fixedly connected or being detachably connected, or be integrally connected；It can be machine Tool connects or electrical connection；Can be joined directly together, can also be indirectly connected by intermediary, can be two members Connection inside part.For the ordinary skill in the art, above-mentioned term can be understood in this hair as the case may be Concrete meaning in bright.

In the present invention, unless otherwise clearly defined and limited, fisrt feature second feature it " on " or it " under " Can directly it be contacted including the first and second features, it is not directly to contact but pass through it that can also include the first and second features Between other characterisation contact.Moreover, fisrt feature second feature " on ", " top " and " above " to include first special Sign is directly over second feature and oblique upper, or is merely representative of fisrt feature level height and is higher than second feature.Fisrt feature exists Second feature " under ", " lower section " and " following " fisrt feature that includes are immediately below second feature and obliquely downward, or be merely representative of Fisrt feature level height is less than second feature.

Embodiment

The heating system that can carry out wireless monitor in real time as shown in Figure 1, including it is radiator 1, controller 2, first-class Quantity sensor 3, the first water inlet pipe magnetic valve 4, power supply 5, temperature display adjusting means 6, the first water outlet pipe valve 8, water collecting and diversifying device 9, First main water inlet tube magnetic valve 10, the first main water return tube magnetic valve 11, boiler 12, the first main water inlet tube 14, the first main water return tube 15th, tie point water inlet pipe 16, tie point return pipe 17, radiator water inlet pipe 18, radiator return pipe 19, the and of workshop 100 Workbench 200, the controller 2 are electrically connected with the water inlet pipe magnetic valve 4 of first flow sensor 3 and first, the He of power supply 5 Temperature display adjusting means 6 is electrically connected with controller 2, and water inlet and the radiator water inlet pipe 18 of the radiator 1 are connected, and Radiator water inlet pipe 18 is provided with the water inlet pipe magnetic valve 4 of first flow sensor 3 and first, the delivery port of the radiator 1 with Radiator return pipe 19 connects, and radiator return pipe 19 is provided with the first water outlet pipe valve 8, the radiator water inlet pipe 18 and One branch road water inlet pipe 16 connects, and the radiator return pipe 19 and tie point return pipe 17 connect, the tie point water inlet The water side of pipe 16 and tie point return pipe 17 respectively with water collecting and diversifying device 9 is connected, the water inlet end and first of the water collecting and diversifying device 9 The main water return tube 15 of main water inlet tube 14 and first connects, and first main water inlet tube 14 passes through the first main water inlet tube magnetic valve 10 and pot The delivery port connection of stove 12, first main water return tube 15 are connected by the water return outlet of the first main water return tube magnetic valve 11 and boiler 12 Connect, radiator return pipe 19 is provided with second flow sensor 7；One group of workbench 200, the work are provided with the workshop 100 Platform 200 is correspondingly provided with radiator 1；Wherein, the heating system also includes temperature sensor 23, radio communication unit 24 and upper Machine monitoring unit 25, the temperature sensor 23 are arranged on radiator 1, and are electrically connected with controller 2, the wireless telecommunications Unit 24 is controlled the communication between device 2 and host computer monitoring unit 25.Further, in order to improve shopwork environment, The second main water inlet tube 20 and the second main water return tube 21, and the second main water inlet tube 20 and the second main water return tube are additionally provided with boiler 12 21 are connected with workshop hand washing sink 22, and when being easy to the winter staff to wash one's hands, water will not be subcooled, and cause finger frostbite.Further, The boiler 12 is provided with temperature controller 13, for showing temperature of the boiler 12 altogether to hot water, is convenient for temperature control.Enter One step, the radiator water inlet pipe 18 is provided with automatic blow off valve valve air relief, in addition, in order to keep attractive in appearance and anti-corrosion, radiator 1, One main water inlet tube 14, the first main water return tube 15, tie point water inlet pipe 16, tie point return pipe 17, radiator water inlet pipe 18 Anticorrosive paint is scribbled with the outer surface of radiator return pipe 19.

A kind of method of work for the heating system that can carry out wireless monitor in real time, it is characterised in that：Comprise the following steps：

1）Boiler 12 starts feedwater heating；

2）The first water inlet pipe magnetic valve 4, the first main water inlet tube magnetic valve 10 and the first main water return tube magnetic valve 11 are opened successively；

3）Radiator 1 enters hot water, heating；

4）Controller 2 receives the data of first flow sensor 3 and temperature display adjusting means 6；

5）Temperature display adjusting means 6 sets heating temperature, and controller 2 adjusts the inflow of the first water inlet pipe magnetic valve 4；

6）The hot water of boiler 12 passes through the first main water inlet tube 14, water collecting and diversifying device 9, tie point water inlet pipe 16, radiator water inlet pipe 18 enter radiator 1；

7）Hot water enters boiler from radiator return pipe 19, tie point return pipe 17, the main water return tube 15 of water collecting and diversifying device 9 and first 12；

8）Heat continuous repeat step 4）-7）.

A kind of method of work for the heating system that can carry out wireless monitor in real time as shown in Figure 2, it is characterised in that：Also wrap Include following steps：

9）When the workbench 200 in workshop 100 does not work, radiator 1 corresponding to the workbench 200 can be closed.

In the heating system of workshop, boiler 12 ensures to provide the heating in the larger workshop of area, ensures heating effect.

In addition, the method for work of the heating system of wireless monitor can be carried out in real time, it is further comprising the steps of：

10）In heating process, temperature sensor 23 constantly gathers water temperature data and sent to control

Device 2, controller 2 are constantly carried out data transmission by radio communication unit 24 with host computer monitoring unit 25, host computer prison Survey the monitoring temperature of unit 25.

The temperature monitoring unit of setting, avoid the occurrence of workbench it is idle in the case of, heating open, waste of resource, together When play a part of track heating service condition.

Described above is only the preferred embodiment of the present invention, it is noted that for the ordinary skill people of the art For member, under the premise without departing from the principles of the invention, some improvement can also be made, these improvement also should be regarded as the present invention's Protection domain.

Claims (9)

1. A kind of 1. method of work for the heating system that can carry out wireless monitor in real time, it is characterised in that：The method of work Equipment includes radiator（1）, controller（2）, first flow sensor（3）, the first water inlet pipe magnetic valve（4）, power supply （5）, temperature display adjusting means（6）, the first water outlet pipe valve（8）, water collecting and diversifying device（9）, the first main water inlet tube magnetic valve（10）, One main water return tube magnetic valve（11）, boiler（12）, the first main water inlet tube（14）, the first main water return tube（15）, tie point water inlet Pipe（16）, tie point return pipe（17）, radiator water inlet pipe（18）, radiator return pipe（19）, workshop（100）And workbench （200）, the controller（2）With first flow sensor（3）With the first water inlet pipe magnetic valve（4）It is electrically connected with, the power supply （5）With temperature display adjusting means（6）With controller（2）It is electrically connected with, the radiator（1）Water inlet and radiator intake Pipe（18）Connect, and radiator water inlet pipe（18）It is provided with first flow sensor（3）With the first water inlet pipe magnetic valve（4）, institute State radiator（1）Delivery port and radiator return pipe（19）Connection, and radiator return pipe（19）It is provided with the first outlet pipe Valve（8）, the radiator water inlet pipe（18）With tie point water inlet pipe（16）Connection, the radiator return pipe（19）With first Branch road return pipe（17）Connection, the tie point water inlet pipe（16）With tie point return pipe（17）Respectively with water collecting and diversifying device （9）Water side connection, the water collecting and diversifying device（9）Water inlet end and the first main water inlet tube（14）With the first main water return tube（15）Even Connect, first main water inlet tube（14）Pass through the first main water inlet tube magnetic valve（10）With boiler（12）Delivery port connection, it is described First main water return tube（15）Pass through the first main water return tube magnetic valve（11）With boiler（12）Water return outlet connection；The workshop （100）Inside it is provided with one group of workbench（200）, the workbench（200）It is correspondingly provided with radiator（1）；

   Wherein, the heating system also includes temperature sensor（23）, radio communication unit（24）With host computer monitoring unit （25）, the temperature sensor（23）It is arranged on radiator（1）On, and and controller（2）It is electrically connected with, the wireless telecommunications list Member（24）It is controlled device（2）With host computer monitoring unit（25）Between communication；

   The method of work of the heating system that wireless monitor can be carried out in real time, comprises the following steps：

   1）Boiler（12）Start feedwater heating；

   2）The first water inlet pipe magnetic valve is opened successively（4）, the first main water inlet tube magnetic valve（10）With the first main water return tube magnetic valve （11）；

   3）Radiator（1）Into hot water, heating；

   4）Controller（2）Receive first flow sensor（3）With temperature display adjusting means（6）Data；

   5）Temperature display adjusting means（6）Heating temperature, controller are set（2）Adjust the first water inlet pipe magnetic valve（4）Water inlet Amount；

   6）Boiler（12）Hot water pass through the first main water inlet tube（14）, water collecting and diversifying device（9）, tie point water inlet pipe（16）, heating Piece water inlet pipe（18）Into radiator（1）；

   7）Hot water is from radiator return pipe（19）, tie point return pipe（17）, water collecting and diversifying device（9）With the first main water return tube（15） Into boiler（12）；

   8）Heat continuous repeat step 4）-7）.
2. 2. the method for work of the heating system according to claim 1 that wireless monitor can be carried out in real time, it is characterised in that： It is further comprising the steps of：

   9）Workshop（100）Workbench（200）, can be by the workbench when not working（200）Corresponding radiator（1）Close.
3. 3. the method for work of the heating system according to claim 2 that wireless monitor can be carried out in real time, it is characterised in that： It is further comprising the steps of：

   10）In heating process, temperature sensor（23）Constantly collection water temperature data is sent to controller

   （2）, controller（2）Pass through radio communication unit（24）Continuous and host computer monitoring unit（25）Carry out data transmission, on Position machine monitoring unit（25）Monitoring temperature.
4. 4. the heating system according to claim 1 that wireless monitor can be carried out in real time, it is characterised in that：The radiator Return pipe（19）Provided with second flow sensor（7）.
5. 5. the heating system according to claim 4 that wireless monitor can be carried out in real time, it is characterised in that：The boiler （12）It is provided with temperature controller（13）.
6. 6. the heating system according to claim 1 that wireless monitor can be carried out in real time, it is characterised in that：The boiler （12）On be additionally provided with the second main water inlet tube（20）With the second main water return tube（21）.
7. 7. the heating system according to claim 6 that wireless monitor can be carried out in real time, it is characterised in that：Second master Water inlet pipe（20）With the second main water return tube（21）With workshop hand washing sink（22）Connection.
8. 8. the heating system according to claim 4 that wireless monitor can be carried out in real time, it is characterised in that：The radiator Water inlet pipe（18）It is provided with automatic blow off valve valve air relief.
9. 9. the heating system according to claim 8 that wireless monitor can be carried out in real time, it is characterised in that：The radiator （1）, the first main water inlet tube（14）, the first main water return tube（15）, tie point water inlet pipe（16）, tie point return pipe（17）、 Radiator water inlet pipe（18）With radiator return pipe（19）Outer surface scribble anticorrosive paint.