CN206817609U

CN206817609U - Industrial afterheat recovery system

Info

Publication number: CN206817609U
Application number: CN201720321216.7U
Authority: CN
Inventors: 王喆
Original assignee: Individual
Current assignee: Individual
Priority date: 2017-03-29
Filing date: 2017-03-29
Publication date: 2017-12-29
Anticipated expiration: 2027-03-29

Abstract

The utility model provides a kind of industrial afterheat recovery system, is related to industrial clout recycling field.The industrial afterheat recovery system includes heat pump main frame, heat exchanger, water-storing device and heating installation, heat pump main frame includes temperature control equipment, the temperature control equipment includes controller, heater, the first temperature sensor and wireless communication module, and the controller electrically connects with the heater, first temperature sensor and the wireless communication module respectively.Industrial afterheat recovery system provided by the utility model has the advantages of worker workload is small and user is easy to operate.

Description

Industrial afterheat recovery system

Technical field

Industrial clout recycling field is the utility model is related to, in particular to a kind of industrial afterheat recovery system.

Background technology

With industrialized development, increasing factory establishes.Some factories (such as thermal power plant, smelting ironworks) exist During operating, substantial amounts of surplus, the especially production process in industries such as steel, chemical industry, oil, building materials, light industry and food can be produced In, abundant residual heat resources all be present, if this part of waste heat row is wasted with the air, being not only to one kind of energy, but also Environment can be polluted.

Because the operation principle of heating installation flows into for the higher water of temperature from the water inlet of heating installation, through heating installation Being flowed out after heat is distributed from the delivery port of heating installation, the heat distributed is user's heating, so, pass through residual heat resources pair Water is first heated, and is then heated by heating installation for user, be can reach the effect of energy-conservation.

But due to the unstability of industrial exhaust heat so that the temperature for heating water is not known, so needing staff to sentence Whether the temperature of the open close water for crossing waste-heat meets the needs of user's daily life, if the temperature for the water for passing through waste-heat is small In the temperature that heating installation needs, then also need to carry out reheating to water by heat pump, then could be heated to user, so as to It is very inconvenient.

How to solve the above problems, be the emphasis that those skilled in the art need to pay close attention to.

Utility model content

The purpose of this utility model is to provide a kind of industrial afterheat recovery system, to reach the work for reducing staff The effect of amount.

What the utility model was realized in：

On the one hand, this implementation new embodiment provides a kind of industrial afterheat recovery system, the industrial afterheat recovery system Including heat pump main frame, heat exchanger, water-storing device and heating installation, the heat pump main frame includes first pump housing, second pump housing, the Three pump housings, temperature control equipment, the heat exchanger include the first pipeline and second pipe, first pipeline and an industrial waste Discharge tube is connected, and the water inlet of first pump housing is connected with the delivery port of the water-storing device, and first pump housing goes out The mouth of a river is connected with the water inlet of the second pipe, and the water inlet of the delivery port of the second pipe and second pump housing connects Connect, the delivery port of second pump housing is connected with the water inlet of the heating installation, the delivery port of the heating installation with it is described The water inlet connection of 3rd pump housing, the delivery port of the 3rd pump housing are connected with the water inlet of the water-storing device, the temperature Control device includes controller, heater, the first temperature sensor and wireless communication module, the controller respectively with institute State heater, first temperature sensor and wireless communication module electrical connection, the heater and described the One temperature sensor is mounted on the water inlet of second pump housing, and first temperature sensor is used to detect described second First temperature data of the water of the water inlet of the pump housing, and first temperature data is transmitted to the controller, the control Device processed is used for after first temperature data is received, and first temperature data and pre-stored temperature data are compared Compared with if first temperature data is less than the pre-stored temperature data, the controller controls the heater to open Open, the wireless communication module and an intelligent terminal communicate to connect, and the wireless communication module is used to receive the intelligent terminal The data-signal of transmission, and by the data signal transmission to the controller, the controller be additionally operable to receive it is described After data-signal, the data are arranged to the pre-stored temperature data.

Further, the delivery port of the second pipe is connected with the water inlet of second pump housing by pipeline, described Pipeline is bimetallic tube.

Further, the bimetallic tube includes delivery pipe and protection sleeve pipe, and the protection sleeve pipe is sheathed on the delivery pipe Outer and described protection sleeve pipe is connected with the end of the delivery pipe, and the delivery pipe forms an interlayer with the protection sleeve pipe, Filled with insulation insulating materials in the interlayer.

Further, the insulation insulating materials is alumina silicate fibre.

Further, the temperature control equipment also includes valve, and the water inlet of the valve connects with the water-storing device Connect, the delivery port of the valve is connected with the delivery port of second pump housing.

Further, the valve is magnetic valve, and the magnetic valve is electrically connected with the controller, and the controller is also used If being more than the pre-stored temperature data in first temperature data, the magnetic valve is controlled to open.

Further, the temperature control equipment also includes second temperature sensor, the second temperature sensor and institute State controller electrical connection and the second temperature sensor is installed on the water outlet of second pump housing, the second temperature passes Sensor is used for the second temperature data for detecting the water of the water outlet of second pump housing, and by the second temperature data transfer To the controller, the controller adjusts the opening degree or described of the magnetic valve after the second temperature data are received The heat value of heater.

Further, the heater is electric heating tube.

Further, the industrial afterheat recovery system also includes jettison gear, the jettison gear and second pump The delivery port connection of body.

On the other hand, the utility model additionally provides another industrial afterheat recovery system, the industrial afterheat recovery system System includes heat pump main frame, heat exchanger and heating installation, and the heat pump main frame includes first pump housing, second pump housing, temperature control Device, the heat exchanger include the first pipeline and second pipe, and first pipeline passes through the first pump described in the second pipe The water inlet of body is connected with the delivery port of the heating installation, and the delivery port of first pump housing enters water with the second pipe Mouthful connection, the delivery port of the second pipe is connected with the water inlet of second pump housing, the delivery port of second pump housing and The heating installation water inlet connection, the temperature control equipment include controller, heater, the first temperature sensor with And wireless communication module, the controller respectively with the heater, first temperature sensor and the channel radio Believe module electrical connection, the heater is mounted on the water inlet of second pump housing with first temperature sensor, First temperature sensor is used for the first temperature data for detecting the water of the water inlet of second pump housing, and by described the One temperature data is transmitted to the controller, and the controller is used for after first temperature data is received, by described the One temperature data is compared with pre-stored temperature data, if first temperature data is less than the pre-stored temperature number According to then the controller controls the heater to open, and the wireless communication module and an intelligent terminal communicate to connect, described Wireless communication module is used to receiving the data-signal that the intelligent terminal is sent, and by the data signal transmission to the control Device, the controller are additionally operable to after the data-signal is received, and the data are arranged into the pre-stored temperature number According to.

Compared with the prior art, the utility model has the advantages that：

The utility model provides a kind of industrial afterheat recovery system, and the industrial afterheat recovery system includes temperature control Device, temperature control equipment include controller, heater, the first temperature sensor and wireless communication module.On the one hand, control Device processed can judge whether have been able to reach heating installation by the temperature after waste-heat water according to the first temperature sensor Required temperature, if being not reaching to the temperature needed for heating installation, controller can control heater to carry out secondary add to water Heat, judged without staff, reduce the routine work amount of staff.Second aspect, due to control device Including wireless communication module, user can be established by wireless communication module and intelligent terminal (such as mobile phone) and be communicated to connect, so as to Allow users to set the pre-stored temperature data of controller, facilitate the temperature that user adjusts heating installation.

To enable above-mentioned purpose of the present utility model, feature and advantage to become apparent, preferred embodiment cited below particularly, and Accompanying drawing appended by cooperation, is described in detail below.

Brief description of the drawings

It is new below in conjunction with this practicality to make the purpose, technical scheme and advantage of the utility model embodiment clearer Accompanying drawing in type embodiment, the technical scheme in the embodiment of the utility model is clearly and completely described, it is clear that is retouched The embodiment stated is the utility model part of the embodiment, rather than whole embodiments.Generally here described in accompanying drawing and The component of the utility model embodiment shown can be configured to arrange and design with a variety of.Therefore, below to attached The detailed description of the embodiment of the present utility model provided in figure is not intended to limit claimed the scope of the utility model, But it is merely representative of selected embodiment of the present utility model.Based on the embodiment in the utility model, ordinary skill people The every other embodiment that member is obtained under the premise of creative work is not made, belong to the model of the utility model protection Enclose.

Fig. 1 shows the structural representation for the industrial afterheat recovery system that the utility model first embodiment is provided.

Fig. 2 shows the circuit connection block diagram for the temperature control equipment that the utility model first embodiment is provided.

Fig. 3 shows the interaction schematic diagram for the temperature control equipment that the utility model first embodiment is provided.

Fig. 4 shows the structural representation for the bimetallic tube that the utility model first embodiment is provided.

Fig. 5 shows the structural representation for the industrial afterheat recovery system that the utility model second embodiment is provided.

Icon：100- industrial afterheat recovery systems；110- heat pump main frames；The pump housings of 111- first；The pump housings of 112- second；113- 3rd pump housing；114- temperature control equipments；1141- controllers；The temperature sensors of 1142- first；1143- heaters；1144- Wireless communication module；1145- second temperature sensors；1146- magnetic valves；120- heat exchangers；The pipelines of 121- first；122- second Pipeline；130- water-storing devices；140- heating installations；150- jettison gears；201- intelligent terminals；202- networks.

Embodiment

Below in conjunction with accompanying drawing in the utility model embodiment, the technical scheme in the embodiment of the utility model is carried out clear Chu, it is fully described by, it is clear that described embodiment is only the utility model part of the embodiment, rather than whole realities Apply example.The component of the utility model embodiment being generally described and illustrated herein in the accompanying drawings can be come with a variety of configurations Arrangement and design.Therefore, the detailed description of the embodiment of the present utility model to providing in the accompanying drawings is not intended to limit below Claimed the scope of the utility model, but it is merely representative of selected embodiment of the present utility model.Based on the utility model Embodiment, the every other embodiment that those skilled in the art are obtained on the premise of creative work is not made, all Belong to the scope of the utility model protection.

In description of the present utility model, it is also necessary to which explanation, unless otherwise clearly defined and limited, term " are set Put ", " installation ", " connected ", " connection " should be interpreted broadly, for example, it may be fixedly connected or be detachably connected, Or it is integrally connected；Can be mechanical connection or electrical connection；Can be joined directly together, intermediary can also be passed through It is indirectly connected, can is the connection of two element internals.For the ordinary skill in the art, can be managed with concrete condition Solve concrete meaning of the above-mentioned term in the utility model.

It should be noted that：Similar label and letter represents similar terms in following accompanying drawing, therefore, once a certain Xiang Yi It is defined, then it further need not be defined and explained in subsequent accompanying drawing in individual accompanying drawing.

Below in conjunction with the accompanying drawings, some embodiments of the present utility model are elaborated.In the case where not conflicting, under Feature in the embodiment and embodiment stated can be mutually combined.

First embodiment

Referring to Fig. 1, the utility model embodiment provides a kind of industrial afterheat recovery system 100, the industrial exhaust heat returns Receipts system 100 includes heat pump main frame 110, heat exchanger 120, water-storing device 130, heating installation 140 and jettison gear 150, should Heat exchanger 120, water-storing device 130, heating installation 140 and jettison gear 150 are connected with heat pump main frame 110 respectively.

Specifically, heat exchanger 120 is the equipment that the partial heat of hot fluid is passed to cold fluid, also known as heat exchanger, The heat exchanger 120 includes the first pipeline 121 and second pipe 122, the first pipeline 121 are connected with an industrial waste discharge tube, I.e. the waste heat of industrial discharge can flow into the first pipeline 121 of heat exchanger 120, and usual industrial exhaust heat can be arranged in a manner of waste water Go out, it has obvious temperature difference with the water under Current Temperatures.The operation principle of heat exchanger 120 is：First pipeline 121 is through the Two pipelines 122, there is the relatively low daily water consumption of temperature in second pipe 122, when the higher waste water of temperature flows out of first pipeline 121 It is out-of-date, due to warm existing for the relatively low daily water consumption of temperature in temperature in the first pipeline 121 higher waste water and second pipe 122 Degree is poor, can form heat exchange, because the heat of high temp objects is always to cryogenic object transmission, so can be with by such mode The daily water consumption that the heat exchange of waste water in first pipeline 121 has been given in second pipe 122.

Specifically, referring to Fig. 2, heat pump main frame 110 include first pump housing 111, second pump housing 112, the 3rd pump housing 113 with And temperature control equipment 114, first pump housing 111, second pump housing 112 and the 3rd pump housing 113 are the machinery for conveying liquid, the The water inlet of one pump housing 111 is connected with the delivery port of water-storing device 130, delivery port and the second pipe 122 of first pump housing 111 Water inlet connects, and the delivery port of second pipe 122 is connected with the water inlet of second pump housing 112, the delivery port of second pump housing 112 and One end connection of heating installation 140, the other end of heating installation 140 are connected with the water inlet of the 3rd pump housing 113, the 3rd pump housing 113 delivery port is connected with the water inlet of water-storing device 130.By such setting, enable water to recycle, will not cause The waste of water resource.Also, water-storing device 130 is also connected with a running water pipe, when the water of industrial afterheat recovery system 100 is disappeared It is time-consuming, can be that water-storing device 130 supplements water by running water pipe.

Temperature control equipment 114 includes controller 1141, heater 1143, first the 1142, second temperature of temperature sensor Spend sensor 1145, magnetic valve 1146 and wireless communication module 1144, controller 1141 respectively with heater 1143, first Temperature sensor 1142, second temperature sensor 1145, magnetic valve 1146 and wireless communication module 1144 electrically connect, heating dress Put 1143 and first temperature sensor 1142 be respectively mounted the water inlet of second pump housing 112, second temperature sensor 1145 The water outlet of second pump housing 112 is installed on, the water inlet of magnetic valve 1146 is connected with water-storing device 130, magnetic valve 1146 Delivery port is connected with the delivery port of second pump housing 112.

Between temperature due to heating water by industrial exhaust heat is typically in 20 degrees Celsius to 80 degrees Celsius, have very big Unstability, and the heating of heating installation 140 needs the water of 60 degrees centigrades, so, it should judge to add by industrial exhaust heat first Heat water whether be user need temperature.

In the present embodiment, controller 1141 is provided with pre-stored temperature data, and the first temperature sensor 1142 can be examined The first temperature data of the water of the water inlet of second pump housing 112 is surveyed, i.e., the first temperature sensor 1142, which can measure, passes through work The temperature data of the water of industry waste-heat, and the first temperature data is transmitted to controller 1141, controller 1141 and can connect After receiving the first temperature data, by the first temperature data compared with pre-stored temperature data, if the first temperature data is small In pre-stored temperature data, then need to carry out reheating to water, now, controller 1141 can control heater 1143 to hold Open, so that heater 1143 heats to water, to meet the temperature of the water needed for heating installation 140.

If the first temperature data is more than pre-stored temperature data, then it represents that has been heated the water to by industrial exhaust heat very high Temperature, now need to cool to water, then can just move the water to flow into heating installation 140, be otherwise likely to result in user sense Feel uncomfortable, have impact on the usage experience of user.In the present embodiment, if the first temperature data is more than pre-stored temperature data, Controller 1141 can control magnetic valve 1146 to open, after magnetic valve 1146 is opened, the relatively low water of temperature in water-storing device 130 The pipeline of the delivery port of second pump housing 112 can be flowed into, from the water that the delivery port of second pump housing 112 flows out with from water-storing device 130 The water mixing of interior outflow, because the temperature of the water in water-storing device 130 is relatively low, so as to reach the purpose for reducing water temperature.

Referring to Fig. 3, in order to make user more easily operate, wireless communication module 1144 and the intelligent terminal of user 201 are communicated to connect by network 202, for example, user is communicated to connect by mobile phone and wireless communication module 1144 so that Yong Huneng Enough pass through mobile phone control temperature control equipment 114.Because different user is different to the demand of the heating temperature of heating installation 140, And controller 1141 is by the way that the temperature data that the first temperature sensor 1142 measures and pre-stored temperature data are compared Relatively judge whether also to need to carry out reheating to water, so in the present embodiment, user can be by mobile phone to wireless communication module 1144 send data-signals, and wireless communication module 1144 is received data signal transmission to controller 1141 after data-signal, Controller 1141 is additionally operable to after data-signal is received, and the data are arranged into the pre-stored temperature data, i.e. user Pre-stored temperature data can be set according to demand at any time.For example, the temperature for wanting to flow into the water of heating installation 140 as user is 50 degrees Celsius, and pre-stored temperature data is 60 degrees Celsius, even if 55 degrees Celsius can be heated water to by industrial exhaust heat, then Controller 1141 still can control heater 1143 to continue to heat, and may bring discomfort to user.Now user can pass through Mobile phone sends 50 degrees Celsius of data-signal to wireless communication module 1144, and controller 1141 then can be by pre-stored temperature data 50 degrees Celsius are re-set as, so as to facilitate user.

Further, in order to more accurately make the temperature data of the water of inflow heating installation 140 meet the needs of user, In the present embodiment, second temperature sensor 1145 has also been used to measure the second temperature of the water of the delivery port of second pump housing 112 outflow Data, and by the second temperature data transfer of measurement to controller 1141.Controller 1141 can again by second temperature data with it is pre- The temperature data of storage is contrasted.When the first temperature data is more than pre-stored temperature data, controller 1141 can basis The opening degree of magnetic valve 1146 is adjusted for second temperature data and the comparison result of pre-stored temperature data, if for example, Second degrees of data is more than pre-stored temperature data, then the opening degree of the meeting of controller 1141 electromagnetic valve for adjusting 1146 becomes big so that The water relatively low from the temperature of the inflow of water-storing device 130 is more, so that water further cools；If the second degrees of data is small pre-stored Temperature data, then controller 1141 can the opening degree of electromagnetic valve for adjusting 1146 diminish.When the first temperature data is less than what is be pre-stored During temperature data, controller 1141 can be according to the comparison result of second temperature data and pre-stored temperature data to heater 1143 heat value is adjusted, and regulative mode is identical with aforesaid way, will not be repeated here.

Certain, it can also be adjusted by other means, for example, magnetic valve 1146 is changed to manually-operated gate, valve Water inlet is connected with water-storing device 130, and the delivery port of valve is connected with the delivery port of second pump housing 112.User can be manually For the size of control valve to adjust the water flow of pipeline that water-storing device 130 flows into the delivery port of second pump housing 112, the present embodiment is right This does any restriction.

It should be noted that the control of controller 1141 for convenience, in the present embodiment, heater 1143 adds for electricity Heat pipe, because ceramic electroheating tube is to make matrix by good ceramics, the heating wire string of high quality around into, electric heating conversion effect Rate is high, and quick heating, thermal inertia are small, high temperature resistant, corrosion-resistant, and thermochemistry stabilizability is good, and service life length, dielectric strength is high, It is pollution-free, 30% or so is can save energy compared with other electrical heating elements, so, the present embodiment preferably ceramic electric heating tube, which is used as, to be added Thermal 1143.Also, the heating installation 140 in the present embodiment is floor heating, floor heating is using whole ground as radiator, passes through ground Heating agent in plate radiating layer, whole ground is uniformly heated, the rule radiated upwards using the accumulation of heat and heat on ground itself is under It is supreme to be conducted, to reach the purpose of heating, so that user feels more comfortable.

In the present embodiment, due to a certain distance, and heat exchanger 120 between heat exchanger 120 and heat pump main frame 110 be present It is connected between heat pump main frame 110 by pipeline.Because the water after being heated by industrial exhaust heat by pipeline flow to second pump housing When 112, the water in pipeline can produce heat exchange with the cold air in the external world, so that heat waste is larger.In view of this, in this implementation In example, referring to Fig. 4, being connected between the water inlet of the delivery port of second pipe 122 and second pump housing 112 by bimetallic tube 160.

Bimetallic tube 160 includes delivery pipe 163 and protection sleeve pipe 161, and protection sleeve pipe 161 is sheathed on outside delivery pipe 163 and protected Protecting pipe 161 is connected with the end of delivery pipe 163, and delivery pipe 163 forms an interlayer with protection sleeve pipe 161, is filled with interlayer It is incubated insulating materials 162.So that water when flowing through bimetallic tube 160, will not produce the larger loss of heat.It should be noted that Due to alumina silicate fibre be it is a kind of have low heat conductivity, excellent heat endurance and chemical stability, without binding agent and corrosion Property material, so in the present embodiment, it is alumina silicate fibre to be preferably incubated insulating materials 162.

It should also be noted that, jettison gear 150 is connected with the delivery port of second pump housing 112, so user can directly make The daily water consumption being used as by the use of the water heated by industrial exhaust heat and heater 1143, enters without consuming other energy to water Row heating, has saved the energy, and after user releases a part of water by jettison gear 150, water-storing device 130 can be corresponding Identical water is put into from running water pipe.

Second embodiment

Referring to Fig. 5, the utility model embodiment provides a kind of industrial afterheat recovery system 100, the industrial exhaust heat returns Including heat pump main frame 110, heat exchanger 120 and heating installation 140, the second pipe 122 divides receipts system 100 with heating installation 140 It is not connected with heat pump main frame 110.Because the operation principle of the industrial afterheat recovery system 100 of the present embodiment offer is implemented with first The operation principle for the industrial afterheat recovery system 100 that example provides is identical, so both identical structures will not be repeated here.

Compared with first embodiment, this embodiment reduces the pump housing 113 of water-storing device 130 and the 3rd, i.e. the present embodiment carries Heat pump main frame 110, heat exchanger 120 and the heating installation 140 of the industrial afterheat recovery system 100 of confession form primary Ioops, make water Keep circulating wherein, it is simple in construction so that water caused heat waste in flow process is smaller.

In summary, the utility model provides a kind of industrial afterheat recovery system, and the industrial afterheat recovery system includes There is temperature control equipment, temperature control equipment includes controller, heater, the first temperature sensor and radio communication mold Block.On the one hand, controller can judge whether have been able to by the temperature after waste-heat water according to the first temperature sensor Reach temperature needed for heating installation, if being not reaching to the temperature needed for heating installation, controller can control heater pair Water carries out reheating, is judged without staff, reduces the routine work amount of staff.Second aspect, Because control device includes wireless communication module, user can be established logical by wireless communication module and intelligent terminal (such as mobile phone) Letter connection, so that user can set the pre-stored temperature data of controller, facilitate the temperature that user adjusts heating installation.

, it is necessary to which explanation, term " first ", " second ", " the 3rd ", " the 4th " etc. are only in description of the present utility model Described for distinguishing, and it is not intended that instruction or hint relative importance.It the foregoing is only of the present utility model preferred real Example is applied, is not limited to the utility model, for those skilled in the art, the utility model can have various Change and change.All any modification, equivalent substitution and improvements within the spirit and principles of the utility model, done etc., all should Within the scope of protection of the utility model.

Claims

1. a kind of industrial afterheat recovery system, it is characterised in that the industrial afterheat recovery system includes heat pump main frame, heat exchange Device, water-storing device and heating installation, the heat pump main frame include first pump housing, second pump housing, the 3rd pump housing, temperature control dress Put, the heat exchanger includes the first pipeline and second pipe, and first pipeline passes through the second pipe, first pump housing Water inlet be connected with the delivery port of the water-storing device, the delivery port of first pump housing and the water inlet of the second pipe Connection, the delivery port of the second pipe are connected with the water inlet of second pump housing, the delivery port of second pump housing and institute The water inlet connection of heating installation is stated, the delivery port of the heating installation is connected with the water inlet of the 3rd pump housing, and described the The delivery port of three pump housings is connected with the water inlet of the water-storing device, the temperature control equipment include controller, heater, First temperature sensor and wireless communication module, the controller respectively with the heater, first TEMP Device and wireless communication module electrical connection, the heater are mounted on described second with first temperature sensor The water inlet of the pump housing.

2. industrial afterheat recovery system as claimed in claim 1, it is characterised in that the delivery port of the second pipe with it is described The water inlet of second pump housing is connected by pipeline, and the pipeline is bimetallic tube.

3. industrial afterheat recovery system as claimed in claim 2, it is characterised in that the bimetallic tube includes delivery pipe and protection Sleeve pipe, the protection sleeve pipe is sheathed on outside the delivery pipe and the protection sleeve pipe is connected with the end of the delivery pipe, and institute State delivery pipe and form an interlayer with the protection sleeve pipe, insulation insulating materials is filled with the interlayer.

4. industrial afterheat recovery system as claimed in claim 3, it is characterised in that the interlayer is alumina silicate fibre layer.

5. industrial afterheat recovery system as claimed in claim 1, it is characterised in that the temperature control equipment also includes valve Door, the water inlet of the valve are connected with the water-storing device, the delivery port of the delivery port of the valve and second pump housing Connection.

6. industrial afterheat recovery system as claimed in claim 5, it is characterised in that the valve is magnetic valve, the electromagnetism Valve electrically connects with the controller.

7. industrial afterheat recovery system as claimed in claim 6, it is characterised in that the temperature control equipment also includes second Temperature sensor, the second temperature sensor electrically connects with the controller and the second temperature sensor be installed on it is described The water outlet of second pump housing.

8. industrial afterheat recovery system as claimed in claim 7, it is characterised in that the heater is electric heating tube.

9. industrial afterheat recovery system as claimed in claim 1, it is characterised in that the industrial afterheat recovery system also includes Jettison gear, the jettison gear are connected with the delivery port of second pump housing.

10. a kind of industrial afterheat recovery system, it is characterised in that the industrial afterheat recovery system includes heat pump main frame, heat exchange Device and heating installation, the heat pump main frame include first pump housing, second pump housing, temperature control equipment, and the heat exchanger includes First pipeline and second pipe, first pipeline pass through the water inlet of first pump housing described in the second pipe and the heating The delivery port connection of device, the delivery port of first pump housing are connected with the water inlet of the second pipe, the second pipe Delivery port be connected with the water inlet of second pump housing, the delivery port of second pump housing and the water inlet of the heating installation Connection, the temperature control equipment includes controller, heater, the first temperature sensor and wireless communication module, described Controller electrically connects with the heater, first temperature sensor and the wireless communication module respectively, described to add Thermal is mounted on the water inlet of second pump housing with first temperature sensor.