CN204693553U - Modularized combination type intelligent collector system - Google Patents

Abstract

The utility model discloses a modular combined intelligent heat collector system, which is characterized in that it includes a PTCR-xthm electric heating chip heat source host, a data control template, a constant temperature and pressure device, a frequency conversion water pump, a frequency conversion water pump and a PTCR-xthm electric heating The chip heat source host is connected to the data control template, the outlet end of the PTCR-xthm electric heating chip heat source host is connected to a constant temperature and pressure regulator, and the outlet end of the constant temperature and pressure regulator is connected to the PTCR-xthm electric heating chip heat source host through a frequency conversion pump; PTCR-xthm electric heating chip heat source host Directly lead to the user's heating pipe; and/or the PTCR-xthm electric heating chip heat source host leads to the user's heating pipe through a constant temperature and pressure regulator, and connects to the heat exchanger of the user's water heater. When the source water flows through the PTCR-xthm electric heating chip heat source module of the utility model, it will be heated to the set temperature, and it will be heated immediately when it is turned on, without waiting. The water temperature can be adjusted within 100 degrees Celsius, the general structure, the saturation temperature can be adjusted within 180 degrees Celsius, zero pollution, no emission, high efficiency and energy saving, safe and reliable, high cost performance, small size, low cost, intelligent control.

Description

Modular combined intelligent collector system

technical field

The utility model relates to industrial, agricultural and military water supply heating (gas) systems, in particular to a modular combined intelligent heat collector system.

Background technique

Recently, PTCR-xthm electric heating technology, control technology, and application technology have developed rapidly due to the new important position of innovative technology and intellectual property protection in the field of new energy electric heating. With the continuous innovation of technology in the field of intelligent electric heating, the large-capacity, multi-functional intelligent water supply heating (gas) collector system with PTCR-xthm electric heating chip as the heat source will show rapid development. momentum.

At present, the vast majority of industrial, agricultural, transportation, military and civil water supply heating (gas), vehicle and ship heaters still use traditional boilers that use coal, gas, and oil as energy sources. The disadvantages and hazards of such equipment is well known.

Today, under the smog of "Under the Dome", especially when the new environmental protection law known as "the most stringent in history" was officially implemented this year, it awakens the attention of the scientific and technological circles to the environment and promotes the development of environmental protection technology. To improve pollution sources in the world, to face "our environment today is probably an unprecedented environmental challenge in human history". It is the first responsibility and the first priority of every scientific and technological worker.

Entering the 21st century, the most advanced product in the world for heating and heating is the heat storage electric boiler produced in the United States, which belongs to the pressure vessel. The heat source used is an electric heating tube, the thermal efficiency is only 71%, (the heat load on the surface of the electric heating tube soaked in the boiler is only 22w/c㎡), the average lifespan is 1800 hours, and the maintenance cost is high. The boiler is a pressure vessel, and there are potential safety hazards such as scaling, leakage, and explosion.

Patent No. 01134256.0 is a heating and heating system using photoelectric tubes (quartz tubes) as heat radiation sources. It relies on electric heating wires to emit light and gather heat to reflect and heat water in the tubes. The thermal efficiency is high, but the structure is complicated and difficult to maintain. Although it is not a pressure vessel, it is because The temperature of the heat source is high, the reliability is low, and the life of the quartz tube is short. Slightly larger units are suspected of light pollution.

The heat pump circulation system (reverse Carnot cycle) of the so-called air energy water heater popular at home and abroad is more typical of the GeoSpring brand water heater in the United States. General Electric has equipped GeoSpring with a small steam pump. This GeoSpring brand water heater absorbs heat from the ambient air, and some large units also extract geothermal heat. The standard cooling temperature of the heat pump system is 54°C. Due to the low temperature of the heat source and the high cost of the equipment structure, it cannot meet the multi-functional and all-weather functional requirements of the large-capacity, water-supply, heat-supply, heat-supply (gas) collector system.

Contents of the invention

The purpose of the utility model is to provide a modular combined intelligent heat collector system to solve the deficiencies of the prior art, which can realize zero pollution, no discharge, high efficiency and energy saving, and safe and reliable operation.

The utility model adopts the following technical solutions to achieve the above object: a modular combined intelligent heat collector system, which is characterized in that it includes a PTCR-xthm electric heating chip heat source host, a data control template, a constant temperature and pressure device, a frequency conversion The water pump, frequency conversion water pump and PTCR-xthm electric heating chip heat source host are connected to the data control template, the outlet port of the PTCR-xthm electric heating chip heat source host is connected to the constant temperature and pressure regulator, and the outlet end of the constant temperature and pressure regulator is connected to the PTCR-xthm electric heating chip heat source through the frequency conversion water pump host;

The PTCR-xthm electric heating chip heat source host directly leads to the user's heating pipe to provide heating for the user;

And/or the PTCR-xthm electric heating chip heat source host leads out the user's heating pipe through the constant temperature and pressure regulator, and connects to the heat exchanger of the user's water heater.

As a further explanation of the above scheme, the outlet of the PTCR-xthm electric heating chip heat source host has two branches, one branch is connected to the user's heating pipe through the throttle valve and the stop valve, and the user's heating pipe is connected to the user's heat exchanger and higher than the user's heat exchanger. The gas collecting tank of the heater and the heat exchanger of the user are connected to the heat source host through the return pipe 1, the stop valve and the frequency conversion water pump; the other branch of the outlet end of the PTCR-xthm electric heating chip heat source host is connected to the constant temperature and pressure through the throttle valve and the stop valve 2 The inlet pipe of the constant temperature and pressure device, the outlet pipe of the constant temperature and pressure device is connected to the return pipe in front of the frequency conversion water pump through the check valve. The water level is higher than the consumer heat exchanger.

The inlet pipe of the PTCR-xthm electric heating chip heat source host is connected to tap water or glycol type coolant water tank, and the outlet pipe is connected to the inlet pipe of the constant temperature and pressure device. The outlet pipe of the water pump is connected to the PTCR-xthm electric heating chip heat source host, and the outlet pipe of the constant temperature and pressure device is connected to the heat exchanger of the user's water heater.

The power terminal of the PTCR-xthm electric heating chip heat source host is connected to a data control template, and the data control template is connected to a temperature sensor installed in an environment where a user heat exchanger is installed.

The data control template includes a microcomputer processing center and an actuator connected to a temperature sensor. The temperature sensor measures the user's indoor temperature. When the actual indoor temperature is different from the set temperature, that is, the load changes, the temperature sensor will feed back to the main control center. An electrical signal, after being processed by the microcomputer processing center, sends instructions to the actuator to adjust the power supply voltage and current to achieve the purpose of temperature control; the other of the data control template is to detect the working status of the PTCR-xthm electric heating chip heat source module host, and the electric heating chip host It is composed of a heat source module. The working temperature of the heat source module is an important data for monitoring. If the frequency conversion water pump or the heat medium circulation system fails, the code will be automatically displayed, or the backup program will be started for self-healing or early warning repair.

The microcomputer processing center of the data control template adopts a microprocessor as the control core, configures computer hardware system, peripheral multi-channel interface circuit, computer control circuit, temperature sensor closed-circuit feedback system, and adopts thermistor or rare earth thick film thermal control circuit.

The PTCR-xthm electric heating chip heat source host includes an upper cover plate, several PTCR-xthm electric heating chip heat source modules, a water inlet end cover, and a water outlet end cover. The upper cover plate covers several pieces of electric heating chip heat source modules. The cover and the water outlet end cover are respectively arranged on the end sides of several electric heating chip heat source modules, and the water inlet and outlet channels are arranged in the water inlet end cover, the water outlet end cover and the electric heating chip heat source module.

The several PTCR-xthm electric heating chip heat source modules are stacked sequentially from top to bottom, between the PTCR-xthm electric heating chip heat source module under the upper cover plate, and the adjacent upper and lower PTCR-xthm electric heating chip heat source modules An insulating heat-conducting film is provided.

The connection positions of the water inlet end cover, the water outlet end cover and the heat source module of the electric heating chip are provided with seals for sealing.

The water inlet end cover and the water outlet end cover are metal substrates or non-metal substrates, the metal substrate materials are rare earth aluminum alloys, stainless steel, titanium alloys or copper materials, and the composite materials are aluminum copper Cu+, aluminum steel, titanium copper Cu+, aluminum One of titanium; the non-metallic substrate material is one of functional ceramics, glass-ceramics, quartz glass, and silicone resin.

The PTCR-xthm electric heating chip heat source module includes a PTCR-xthm electric heating chip heat source substrate and a rare earth thick film circuit arranged on it. The rare earth thick film circuit is vertically superposed or laterally distributed in the form of a thick film circuit and a thick film resistance circuit, integrating several Layered on a plane or multiple curved surfaces, the rare earth thick film circuit on the plane part is prepared by screen printing and sintering; the rare earth thick film circuit on the curved surface is prepared by casting and film/HIP process.

The safety constant temperature and pressure device for heat storage is provided with temperature and pressure sensing devices and a safety exhaust valve, and the temperature of saturated steam in the safety constant temperature and pressure device for heat storage is 180 degrees Celsius.

The beneficial effect that the utility model can reach by adopting above-mentioned technical solution is:

1. This utility model is a large-capacity, multi-functional intelligent water supply heating (gas) heat collector system using a rare earth thick film circuit electric heating chip (commonly known as: PTCR-xthm electric heating chip) as a heat source, including a PTCR-xthm electric heating chip heat source Host, safety constant temperature and pressure device for heat storage, data control template, frequency conversion water pump and intelligent heat medium circulation management system, PTCR-xthm electric heating chip heat source host is composed of n electric heating chip heat source modules, n is a natural number, according to the system heat load, The total power and other design parameters are fixed. The PTCR-xthm electric heating chip heat source module is equipped with inlet and outlet pipes and a safety constant temperature regulator for heat storage, a frequency conversion water pump and a heat medium circulation system. The source water flows through the electric heating chip heat source module. It is heated to Set the temperature, turn on the heat immediately, without waiting. It is not only suitable for water supply, heating and heating (gas) systems in industrial, agricultural, military and other facilities, but also for heating systems of various ships and chariots, as well as household and commercial appliances. Water series product system.

2. Energy saving: PTCR-xthm electric heating chip heat source module is a direct heat source + water channel. The thermoelectric conversion efficiency is extremely high, reaching 95%, which is more than 50% energy-saving and material-saving than other heat source heating methods.

3. Multifunctional: PTCR-xthm electric heating chip heat source module not only has low manufacturing cost, easy molding, high thermal efficiency, uniform temperature field, and excellent thermal performance; it is also suitable for new energy, and can be started by high and low voltage, AC and DC power sources; high strength, Large capacity, high integration, and high-temperature far-infrared function; it has all-weather functions of heating, water supply, and gas supply in frigid regions.

4. Safety: The heat source module is the heat source of "tankless boiler", non-pressure vessel, separated from water and electricity, fast thermal response, high utilization rate of heat source, easy maintenance and reliable operation.

5. Intelligence: humanized design, microcomputer control; infrared sensor, stepless frequency conversion, automatic constant temperature, multi-function protection, fault feedback system, quiet and smooth operation.

6. High efficiency: Modular combined design, large capacity, small size, small footprint, easy maintenance and installation, and economical and efficient operation.

Description of drawings

Figure 1 is a structural diagram of the PTCR-XTHM electric heating chip heat source module;

Figure 2 is a schematic diagram of the heating structure of the heat collecting system;

Fig. 3 is a structural schematic diagram of an example of a water heater.

Description of reference signs: 1. PTCR-xthm electric heating chip heat source host 1-1, upper cover plate 1-2, PTCR-xthm electric heating chip heat source module 1-21, PTCR-xthm electric heating chip heat source substrate 1-22, rare earth thick film Circuit 1-3, water inlet cover 1-4, water outlet cover 1-5, water inlet and outlet channels 1-6, insulating heat conduction film 1-7, seal 2, data control template 3, constant temperature and pressure device 4, frequency conversion Water pump 5, heat exchanger 6, gas collection tank 7, return pipe 8, stop valve 9, throttle valve 10, stop valve 11, check valve 12, expansion pipe 13, inlet pipe 14, tap water or ethylene glycol type cooling Liquid water tank 15, outlet pipe 16, outlet pipe 17, heat exchanger 18, stop valve.

Detailed ways

The utility model is a modular combined intelligent heat collector system, which includes PTCR-xthm electric heating chip heat source host 1, data control template 2, constant temperature and pressure device 3, frequency conversion water pump 4, frequency conversion water pump 4 and PTCR-xthm electric heating The chip heat source host 1 is connected to the data control template 2, the outlet end of the PTCR-xthm electric heating chip heat source host 1 is connected to the thermostat 3, and the outlet end of the thermostat 3 is connected to the PTCR-xthm electric heating chip heat source host 1 through the frequency conversion water pump 4. PTCR-xthm electric heating chip heat source host is composed of n PTCR-xthm electric heating chip heat source modules, n is a natural number, which is determined according to design parameters such as system heat load and total power. PTCR-xthm electric heating chip heat source host is connected in order according to the above scheme referring to Figure 1, Figure 2, Figure 3, structure.

As shown in Figure 1, in terms of specific structure, the PTCR-xthm electric heating chip heat source host 1 includes an upper cover plate 1-1, several PTCR-xthm electric heating chip heat source modules 1-2, water inlet end cover 1-3, The water outlet cover 1-4, the upper cover plate 1-1 covers the top of several electric heating chip heat source modules 1-2, the water inlet end cover 1-3, and the water outlet end cover 1-4 are separately arranged on several pieces of electric heating chip heat source modules The end side, and the water inlet and outlet channels 1-5 are set in the water inlet end cover, the water outlet end cover and the heat source module of the electric heating chip. Several PTCR-xthm electric heating chip heat source modules are stacked sequentially from top to bottom, and the electric heating chip heat source module under the upper cover plate, and the adjacent upper and lower two electric heating chip heat source modules are provided with insulating heat conduction films 1-6 . Sealing members 1-7 are arranged at the connection positions of the water inlet end cover, the water outlet end cover and the PTCR-xthm electric heating chip heat source module for sealing. The water inlet end cover and the water outlet end cover are metal substrates or non-metal substrates. The metal substrate materials are rare earth aluminum alloys, stainless steel, titanium alloys or copper materials. The composite materials are aluminum copper Cu+, aluminum steel, titanium copper Cu+, aluminum titanium medium A kind of non-metal substrate material is one of functional ceramics, glass-ceramic, quartz glass, silicone resin. The PTCR-xthm electric heating chip heat source module 1-2 includes the PTCR-xthm electric heating chip heat source substrate 1-21 and the rare earth thick film circuit 1-22 arranged on it, and the rare earth thick film circuit is perpendicular to the thick film resistance circuit in the form of a thick film circuit Superposition or lateral distribution, integrating several layers in one plane or multiple curved surfaces, the rare earth thick film circuit on the plane part is prepared by screen printing and sintering; the rare earth thick film circuit on the curved surface is prepared by casting, film/HIP prepared by the process.

The technical scheme of the utility model is described in detail below in conjunction with specific embodiments.

In the embodiment shown in Figure 2, the modular combined intelligent heat collector system includes a data control template 2, a frequency conversion water pump 4 and a heat medium circulation intelligent management system, and the specific structure is that the outlet end of the PTCR-xthm electric heating chip heat source host has Two branches, one branch is connected to the heating pipe of the user through the throttle valve 9 and the stop valve 18, and the heating pipe is connected to the heat exchanger 5 of the user; the heating pipe of the user is connected to the gas collecting tank 6 higher than the heat exchanger, and the heat exchanger is The return pipe 7, the stop valve 8, and the frequency conversion water pump 4 are connected to the main engine of the heat source; the other branch is connected to the inlet pipe of the constant temperature and pressure device through the throttle valve 9 and the stop valve 10, and the outlet pipe of the constant temperature and pressure device is connected through the check valve 11 The water return pipe 7 in front of the variable frequency water pump, the water return pipe is connected to an expansion water pipe 12 with a three-way pipe, the water level of the expansion water pipe is higher than the heat exchanger; the power terminal (socket) of the heating host is connected to the data control template through a plug, The data control template is connected to a temperature sensor installed in a room where a heat exchanger is installed.

The constant temperature and pressure device works under normal pressure, and the tank is equipped with a water level gauge, a safety exhaust valve and a sensing device. The maximum operating temperature is 180°C. It is mainly composed of a PTCR-xthm electric heating chip heat source host, a regulating valve, a constant temperature and pressure regulator, and a frequency conversion water pump to form a circulation loop. The heat medium in the constant temperature and pressure device is sent to the PTCR-xthm electric heating chip heat source host through the frequency conversion water pump, and after being heated, it returns to the constant temperature and pressure device through the regulating valve to complete a heating cycle. The temperature of the heat medium is raised by 25-30°C each cycle. When the heat medium in the constant temperature and pressure device reaches the setting standard for heating, close the inlet valve of the constant temperature and pressure device, and the heat medium will directly enter the user's heating circulation system. Ordinary users The difference between the circulating supply water temperature and the return water temperature is 25-30°C.

Data control template 2 is mainly composed of temperature sensor, microcomputer processing center and executive components. The sensor measures the indoor temperature of the user. When the actual temperature in the room is different from the set temperature, that is, the load changes, the temperature sensor will feed back a telegram to the main control center. After being processed by the microcomputer, it sends instructions to the executive element-solid-state voltage regulator to adjust the power supply voltage and current to achieve the purpose of temperature control. The other part of the data control template is to detect the working status of the PTCR-xthm electric heating chip heat source module host. The electric heating chip host is composed of heat source modules. The working temperature of the heat source module is important data for monitoring. It will be displayed automatically, or start the backup program self-healing repair or early warning repair.

The data control template 2 adopts a microcomputer control system. With the microprocessor as the control core, it is equipped with necessary computer hardware systems, peripheral multi-channel interface circuits, and computer control circuits. The temperature sensor closed-loop feedback system adopts its own technology thermistor or rare earth thick film thermal control circuit. This specification will not repeat them.

In the embodiment shown in Figure 3, the structure of the heat medium circulation pipeline system is as follows: the inlet pipe 13 of the PTCR-xthm electric heating chip heat source host 1 is connected to tap water or glycol type coolant water tank 14, and the outlet pipe 15 is connected to the constant temperature and pressure device 3, the constant temperature and pressure regulator 3 is provided with a return pipe 14 connected to the frequency conversion water pump 4, the outlet pipe of the frequency conversion water pump 4 is connected to the PTCR-xthm electric heating chip heat source host 1, the frequency conversion water pump and the PTCR-xthm electric heating chip heat source host 1 The terminal socket and plug of the heat source module are connected to the data control template. The outlet pipe 16 of the thermostat is connected to the heat exchanger 17 of the user's water heater, such as a pipeline machine, a sprinkler head, a vehicle heat exchanger, and the like.

Its circulation mode: the source water enters the heat source host through the pipeline, and then enters the constant temperature and pressure device after heating. When the water temperature does not reach the set temperature, the valve is closed, and the water in the constant temperature and pressure device is automatically operated by the control panel. After returning to the water pipe and connecting the frequency conversion water pump, it enters the heat source host for secondary heating, and then enters the constant temperature and pressure device (until the water temperature reaches the set temperature) and then provides it to users, such as pipeline machines, sprinklers, heat exchangers, etc.

The above-mentioned system can also be used for heaters for vehicles and ships or electric vehicles. When used for heaters for vehicles and ships, the system is closed. The vehicle circulation pump is selected, and the constant temperature and pressure device (tank) is changed to a liquid storage tank. The return pipe of the radiator and radiator is connected to the water inlet pipe of the glycol-type coolant tank. All parts are dedicated to vehicles and ships, and the medium is best to use ethylene glycol type coolant. High heat medium efficiency, low viscosity, good fluidity, anti-mildew, anti-scaling, anti-boiling.

Specific examples:

According to the above-mentioned structural circulation system, design and install 20kw small-scale commercial residential water supply and heating equipment, a set of PTCR-xthm electric heating chip modular combined intelligent heat collector system, 12 indoor heat exchangers, circulating water through the PTCR-xthm electric heating chip heat source module , into the room heat exchanger, the heat medium is heated up by 30°C, and the flow rate is 550 liters/h. According to regional heating standards, the average indoor temperature is 18°C, the lowest outdoor temperature is -18°C, and the heating area is 380 square meters.

Example notes:

The multi-hole connection terminal in this embodiment has more ports after modularization, so it is better to choose a plug-in type terminal for aviation electrical appliances or design a special plug-in terminal, which is safe and reliable. PTCR-xthm electric heating chip modular combined intelligent collector system, the temperature zone and function can be designed according to market demand.

The utility model can be used in new energy sources (such as solar energy, wind energy, high-energy storage batteries and smart grid systems), high and low voltage, and AC and DC power sources. Its advantages: zero pollution, no emission, high efficiency and energy saving, safe and reliable, high cost performance, small size, low cost, intelligent control. It is not only suitable for water supply, heating and heating (gas) systems of industrial, agricultural, military and other facilities, but also can be used for heating systems of various ships and chariots, as well as water series product systems of household and commercial appliances.

Table 1. The following is a comparison of performance parameters of several types of heat sources

Table 2. Comparison of performance parameters between the utility model and the American thermal storage electric boiler

Note: 1. Heating standard in Beijing area: 70W/㎡ Indoor temperature: 18°C Minimum outdoor temperature: -16°C The heating period is 120 days. Heating for 8 hours a day. Electricity fee: RMB 0.393/kw.h.

2. Refer to the industry standard analog data in Beijing and Tianjin.

According to the new investigation, the large-capacity, multi-functional intelligent water supply heating (gas) collector system using the PTCR-xthm electric heating chip heat source module as the heat source is still the first at home and abroad.

The above is only the preferred embodiment of the utility model, it should be pointed out that, for those of ordinary skill in the art, without departing from the inventive concept of the utility model, some deformations and improvements can also be made. Belong to the protection scope of the utility model.

Claims (10)

1. A modular combined intelligent heat collector system, characterized in that it includes a PTCR-xthm electric heating chip heat source host, a data control template, a constant temperature and pressure regulator, a frequency conversion water pump, a frequency conversion water pump and a PTCR-xthm electric heating chip heat source host Connect the data control template, the outlet end of the PTCR-xthm electric heating chip heat source host is connected to the constant temperature and pressure regulator, and the outlet end of the constant temperature and pressure regulator is connected to the PTCR-xthm electric heating chip heat source host through the frequency conversion water pump; The PTCR-xthm electric heating chip heat source host directly leads to the user's heating pipe to provide heating for the user; And/or the PTCR-xthm electric heating chip heat source host leads out the user's heating pipe through the constant temperature and pressure regulator, and connects to the heat exchanger of the user's water heater. 2. The modular combined intelligent heat collector system according to claim 1, characterized in that the outlet end of the PTCR-xthm electric heating chip heat source host has two branches, and one branch is connected to the user for heating through the throttle valve and the shut-off valve. Pipe, the user heating pipe is connected to the user heat exchanger and the gas collecting tank higher than the user heat exchanger, and the user heat exchanger is connected to the heat source host through the return pipe 1, the stop valve and the frequency conversion water pump; the outlet of the PTCR-xthm electric heating chip heat source host The other branch at the end is connected to the inlet pipe of the constant temperature and pressure device through the throttle valve and the stop valve, and the outlet pipe of the constant temperature and pressure device is connected to the return pipe in front of the frequency conversion pump through the check valve. One end of the three-way pipe is connected with an expansion water pipe, and the water level of the expansion water pipe is higher than that of the user heat exchanger. 3. The modular combined intelligent heat collector system according to claim 1, characterized in that, the inlet pipe of the PTCR-xthm electric heating chip heat source host is connected to tap water or ethylene glycol type coolant water tank, and the outlet pipe is connected to a constant temperature The inlet pipe of the constant pressure device, the constant temperature and pressure device is equipped with a return pipe to connect the frequency conversion water pump, the outlet pipe of the frequency conversion water pump is connected to the PTCR-xthm electric heating chip heat source host, and the outlet pipe of the constant temperature and pressure device is connected to the heat exchanger of the user's water heater. 4. The modularized combined intelligent heat collector system according to claim 2 or 3, characterized in that, the power supply terminal of the PTCR-xthm electric heating chip heat source host is connected to a data control template, and the data control template is connected to the installation Temperature sensor in the environment with user heat exchanger. 5. The modular combined intelligent heat collector system according to claim 1, wherein the data control template includes a microcomputer processing center and an actuator connected to a temperature sensor, and the temperature sensor measures the user's indoor temperature. 6. The modular combined intelligent heat collector system according to claim 1 or 5, characterized in that, the microcomputer processing center of the data control template adopts a microprocessor as the control core, and configures computer hardware systems, peripheral multiple Road interface circuit, computer control circuit, temperature sensor closed-loop feedback system, using thermistor or rare earth thick film thermal control circuit. 7. The modular combined intelligent heat collector system according to claim 1, characterized in that, the PTCR-xthm electric heating chip heat source host includes an upper cover plate, several PTCR-xthm electric heating chip heat source modules, water inlet Cover, water outlet end cover, the upper cover plate is covered on the top of several electric heating chip heat source modules, the water inlet end cover and the water outlet end cover are respectively arranged on the end sides of several electric heating chip heat source modules, and the The water inlet and outlet channels are set in the heat source module of the electric heating chip. 8. The modular combined intelligent heat collector system according to claim 7, characterized in that, the several PTCR-xthm electric heating chip heat source modules are stacked sequentially from top to bottom, and the PTCR- An insulating heat conduction film is arranged between the xthm electric heating chip heat source module and the adjacent upper and lower PTCR-xthm electric heating chip heat source modules. 9. The modular combined intelligent heat collector system according to claim 7, characterized in that, the connection positions of the water inlet end cover, the water outlet end cover and the heat source module of the electric heating chip are provided with seals for sealing. 10. The modular combined intelligent heat collector system according to claim 7, wherein the PTCR-xthm electric heating chip heat source module includes a PTCR-xthm electric heating chip heat source substrate and a rare earth thick film circuit arranged on it, The rare earth thick film circuit is vertically superimposed or distributed horizontally with the thick film resistance circuit in the form of a thick film circuit, integrating several layers in one plane or multiple curved surfaces; the safety constant temperature and pressure device for heat storage is equipped with temperature, pressure sensing devices and The safety exhaust valve, the saturated steam temperature of the safety constant temperature and pressure device for heat storage is 180 degrees Celsius.