CN209840232U - Independent heating system of family based on thing networking - Google Patents

Abstract

The utility model provides an independent heating system of family based on thing networking, include: first radiator, the thermal circulation pump has concatenated between first radiator and the second radiator, thermal circulation pump and heater connection, the heater is connected with contact temperature sensor, contact temperature sensor is connected with the second radiator, install the motor on the thermal circulation pump, install servo controller on the motor, first spray set is installed to first radiator, second spray set is installed to the second radiator, first radiator is connected with the ooff valve, the ooff valve is connected with the tee bend, the tee bend is connected with water pipe and three-way valve, the three-way valve is connected with the second radiator, the one end of three-way valve is the delivery port, have the haze that can not produce traditional heat supply system and use coal boiler heating to produce, the problem of energy loss when not having long distance pipeline transmission, southern winter also can the independent heat supply's of family effect, can remote control.

Description

Independent heating system of family based on thing networking

Technical Field

The utility model belongs to the technical field of the heat supply engineering, in particular to independent heating system of family based on thing networking.

Background

The traditional heating power network mostly adopts the mode of central heating, burns fossil fuel through coal fired boiler and produces the heat, and the city heat supply pipe network of rethread establishment transmits heat energy to user's position. However, the traditional heating system of the coal-fired boiler has the following disadvantages:

(1) the traditional heat supply system can produce haze by heating with a coal boiler, the energy supply cost is too high by electric heating, and the controllability of no heat storage functional load is too poor.

(2) The centralized energy production usually needs to transport energy in a long distance, so that the problem of energy loss during long-distance pipeline transmission exists, and the expansion civil engineering difficulty of a pipe network is increased.

Indoor cold also in winter in south, also urgently needed family's independent heating system.

SUMMERY OF THE UTILITY MODEL

The utility model aims at solving the heating of coal stove for the traditional heating system in the north and can producing the haze, it is too high with electrical heating energy supply cost, the controllability that does not have heat storage function load is too poor, centralized productivity generally needs the long distance transportation energy, there is the problem of energy loss when long distance pipeline transmits, and make the expansion civil engineering degree of difficulty increase of pipe network, southern winter is indoor also very cold, also need the independent heating system of family urgently, especially southern is indoor, the user is not at home, last the heating cause the technical problem of wasting of resources, a family independent heating system based on thing networking is provided, have the haze that can not produce the heating of coal boiler for the traditional heating system and produce, energy loss's problem when not having long distance pipeline transmission, southern winter also can the independent heating effect of family, can remote control.

The utility model provides a technical scheme does:

a family independent heating system based on the Internet of things comprises: the heating device comprises a first heating radiator, a second heating radiator and a heat circulating pump, wherein the heat circulating pump is connected in series between the first heating radiator and the second heating radiator through a heating pipe, one end of the heat circulating pump is fixedly connected with one end of a heater, the heater is sleeved on the heating pipe, the other end of the heater is fixedly connected with one end of a contact temperature sensor, the contact temperature sensor is sleeved on the heating pipe, the other end of the contact temperature sensor is connected with the second heating radiator through the heating pipe, a motor is installed on the heat circulating pump, an electric wire is arranged on the motor, a plug is installed at one end of the electric wire, a servo controller is installed on the motor, a first spraying device is installed at one end, close to the heat circulating pump, of the first heating radiator, the first spraying device is connected with the heating pipe through a first spraying pipeline, and a second spraying device is installed at one end, close to, the second spray set sprays the pipeline through the second and is connected with the steam heating pipe, first radiator is passed through the steam heating pipe in the one end of keeping away from the heat-cycle pump and is connected with the one end of ooff valve, the other end and the three-way one end of ooff valve are connected, the three-way other end and water piping connection, install the main valve on the water piping, the three-way lower extreme is connected with the delivery port of three-way valve, the water inlet of three-way valve passes through the steam heating pipe and is connected with the second radiator, the one end of three-way valve is the delivery port.

Preferably, the servo controller includes a smoke sensor, a signal emitter, a relay, a non-contact temperature sensor, and a controller.

Preferably, the smoke sensor, the signal emitter, the relay, the non-contact temperature sensor, the first spraying device, the second spraying device and the contact temperature sensor are all electrically connected with the controller.

Preferably, the motor, the heater and the relay are electrically connected.

Preferably, the signal transmitter is internally provided with a SIM card for sending information to and from a user.

Preferably, the controller is electrically connected with the user's main brake.

The beneficial effects of the utility model are embodied in the following aspect:

1. the household independent heat supply can not generate haze generated by the coal boiler heat supply of the traditional heat supply system;

2. the problem of energy loss during long-distance pipeline transmission does not exist;

3. but remote control, heat supply in advance, cancel the heat supply at any time, the heat supply is effectual, and the security is high, and is energy-concerving and environment-protective.

Drawings

Fig. 1 is a schematic structural diagram of the present invention.

Fig. 2 is a control schematic diagram of the present invention.

In the figure: the heating system comprises a three-way valve 1, a water outlet 101, a water outlet 102, a water inlet 103, a tap water pipe 2, a main valve 3, a switch valve 4, a heating pipe 5, a three-way valve 501, a first heating radiator 6, a first spraying device 7, a first spraying pipeline 8, a servo controller 9, a smoke sensor 901, a signal emitter 902, a relay 903, a non-contact temperature sensor 904, a controller 905, a motor 10, a heat circulating pump 11, a second spraying pipeline 12, a second spraying device 13, a second heating radiator 14, a contact temperature sensor 15, a heater 16, a 17 wire and a plug 18.

Detailed Description

The present invention is further described in detail below with reference to the drawings so that those skilled in the art can implement the invention with reference to the description.

As shown in fig. 1 and 2, the utility model provides an independent heating system of family based on thing networking, include: first radiator 6, second radiator 14 and heat-circulating pump 11, heat-circulating pump 11 has concatenated through radiator pipe 5 between first radiator 6 and the second radiator 14, the one end of heat-circulating pump 11 and the one end fixed connection of heater 16, heater 16 cup joints on radiator pipe 5, and heater 16 passes through mains operated, can heat the water of process, heats the water of process to required temperature, the other end of heater 16 and the one end fixed connection of contact temperature sensor 15, contact temperature sensor 15 cup joints on radiator pipe 5, and the temperature of the water of process can be measured to contact temperature sensor 15, contact temperature sensor 15's the other end passes through radiator pipe 5 and is connected with second radiator 14, install motor 10 on heat-circulating pump 11, be equipped with electric wire 17 on the motor 10, plug 18 is installed to the one end of electric wire 17, inserting a plug 18 into a power supply base to provide power for a motor 10, wherein the motor 10 can drive a heat circulating pump 11 to operate, and the heat circulating pump 11 can circulate water entering a first heating radiator 6, a second heating radiator 14 and a heating pipe 5; the motor 10 is provided with a servo controller 9, and the servo controller 9 is a central control system and can control the start and stop of the whole system; a first spraying device 7 is installed at one end, close to a heat circulating pump 11, of the first heating radiator 6, the first spraying device 7 is connected with a heating pipe 5 through a first spraying pipeline 8, a second spraying device 13 is installed at one end, close to the heat circulating pump 11, of the second heating radiator 14, the second spraying device 13 is connected with the heating pipe 5 through a second spraying pipeline 12, the first spraying device 7 and the second spraying device 13 are safety devices, once a fire condition occurs near a motor 10, the first spraying device 7 and the second spraying device 13 can spray the fire condition, the fire condition is prevented from being expanded, the property safety of a user is guaranteed, the first spraying pipeline 8 and the second spraying pipeline 12 can absorb water in the heating pipe 5, and water sources are provided for the first spraying water taking device 7 and the second spraying device 13, so that the approach is convenient, and the cost is saved; the first radiator 6 is connected with one end of a switch valve 4 through a heating pipe 5 at one end far away from a heat circulating pump 11, the other end of the switch valve 4 is connected with one end of a three-way valve 501, the other end of the three-way valve 501 is connected with a tap water pipe 2, a main valve 3 is installed on the tap water pipe 2, the lower end of the three-way valve 501 is connected with a water outlet 101 of the three-way valve 1, a water inlet 103 of the three-way valve 1 is connected with a second radiator 14 through the heating pipe 5, one end of the three-way valve 1 is a water outlet 102, when each part of the utility model is overhauled, the switch valve 4 and the three-way valve 1 are closed, waste of water can be reduced, simultaneously, the indoor contamination of a user can be avoided, the indoor cleanness of the user is ensured, when the three-way valve 1 is injected with water, whether the column is full can be detected, when injecting water, the switch valve 4, if the water outlet 102 is filled with water, the inside of the utility model is filled with water, and the water inlet 103 and the water outlet 101 of the three-way valve 1 can be communicated at this time.

The specific working process is as follows: the switch valve 4 is opened to connect the water inlet 103 and the water outlet 102 of the three-way valve 1, running water is injected into the system through the running water pipe 2, if the water outlet 102 discharges water, the inside of the utility model is full of water, at the moment, the water inlet 103 and the water outlet 101 of the three-way valve 1 can be communicated, and the main valve 3 is closed, so that the system becomes an independent system; inserting a plug 18 into a power supply base to provide power for a motor 10, wherein the motor 10 can drive a heat circulating pump 11 to operate, and the heat circulating pump 11 can circulate water entering a first heating radiator 6, a second heating radiator 14 and a heating pipe 5; the heater 16 may heat the passing water to a desired temperature, and further heat the room to raise the room temperature to the desired temperature.

The servo controller 9 comprises a smoke sensor 901, a signal transmitter 902, a relay 903, a non-contact temperature sensor 904 and a controller 905, wherein the smoke sensor 901 mainly detects whether smoke exists near the motor 10, namely whether a burn-in accident occurs, a SIM card is arranged in the signal transmitter 902 and can communicate with a user at any time to start an alarm function, the relay 903 is a switch and can control the start and stop of the motor 10 and the heater 16, the non-contact temperature sensor 904 mainly measures the indoor temperature and transmits the indoor temperature to the controller 905 in time, the controller 905 is a central control center of the whole system, and the receiving and sending commands are all executed through the controller 905; the smoke sensor 901, the signal emitter 902, the relay 903, the non-contact temperature sensor 904, the first spraying device 7, the second spraying device 12 and the contact temperature sensor 15 are all electrically connected with the controller 905, and the controller 905 can receive an alarm signal of the smoke sensor 901, send spraying instruction signals to the first spraying device 7 and the second spraying device 12 and send instruction signals for informing a user to the signal emitter 902; a user can also send an instruction signal to the signal transmitter 902 through software, for example, the user can send a command for starting heating before going home, after receiving the command, the controller 905 sends a switch signal to the relay 903 to close the relay 903, so as to start the motor 10 and the heater 16 to start heating, the non-contact temperature sensor 904 measures the indoor temperature, when the indoor temperature meets the requirement, the non-contact temperature sensor 904 sends a signal to the controller 905, after receiving the command, the controller 905 sends a switch signal to the relay 903 to disconnect the relay 903, so as to stop the motor 10 and the heater 16, and finally, the heating action of the whole system is completed; the contact temperature sensor 15 can measure the temperature of passing water, can measure whether the heater 16 works normally, and sends the collected data to the controller 905, and the controller 905 analyzes the received data and takes corresponding actions; the motor 10 and the heater 16 are electrically connected with a relay 903, and the relay 903 can control the starting and stopping of the motor 10 and the heater 16; the signal transmitter 902 is internally provided with an SIM card which sends information to and from a user, so that communication with the user can be ensured at any time, and the instruction of the user can be received at any time to realize remote control; the controller 905 and the user's main brake electric connection, in case take place the condition of a fire, avoid the intensity of a fire to further stretch, the controller 905 can control the user's main brake and in time break off, has guaranteed unnecessary loss of property.

While embodiments of the invention have been disclosed above, it is not intended to be limited to the applications listed in the specification and the examples. It can be applicable to various and be fit for the utility model discloses a field completely. Additional modifications will readily occur to those skilled in the art. The invention is therefore not to be limited to the specific details and illustrations shown and described herein, without departing from the general concept defined by the claims and their equivalents.

Claims (6)

1. The utility model provides an independent heating system of family based on thing networking which characterized in that includes: the heating device comprises a first heating radiator, a second heating radiator and a heat circulating pump, wherein the heat circulating pump is connected in series between the first heating radiator and the second heating radiator through a heating pipe, one end of the heat circulating pump is fixedly connected with one end of a heater, the heater is sleeved on the heating pipe, the other end of the heater is fixedly connected with one end of a contact temperature sensor, the contact temperature sensor is sleeved on the heating pipe, the other end of the contact temperature sensor is connected with the second heating radiator through the heating pipe, a motor is installed on the heat circulating pump, an electric wire is arranged on the motor, a plug is installed at one end of the electric wire, a servo controller is installed on the motor, a first spraying device is installed at one end, close to the heat circulating pump, of the first heating radiator, the first spraying device is connected with the heating pipe through a first spraying pipeline, and a second spraying device is installed at one end, close to, the second spray set sprays the pipeline through the second and is connected with the steam heating pipe, first radiator is passed through the steam heating pipe in the one end of keeping away from the heat-cycle pump and is connected with the one end of ooff valve, the other end and the three-way one end of ooff valve are connected, the three-way other end and water piping connection, install the main valve on the water piping, the three-way lower extreme is connected with the delivery port of three-way valve, the water inlet of three-way valve passes through the steam heating pipe and is connected with the second radiator, the one end of three-way valve is the delivery port.

2. An internet of things based home independent heating system according to claim 1, wherein the servo controller comprises a smoke sensor, a signal emitter, a relay, a non-contact temperature sensor and a controller.

3. The internet of things-based household independent heating system according to claim 2, wherein the smoke sensor, the signal emitter, the relay, the non-contact temperature sensor, the first spraying device, the second spraying device and the contact temperature sensor are all electrically connected with the controller.

4. The Internet of things-based household independent heating system according to claim 3, wherein the motor, the heater and the relay are electrically connected.

5. The Internet of things-based household independent heating system according to claim 4, wherein a SIM card for sending information to and from a user is installed in the signal transmitter.

6. The internet of things-based household independent heating system according to claim 1, wherein the controller is electrically connected with a user's main brake.