CN208296659U - A kind of residual neat recovering system - Google Patents

Abstract

The utility model relates to a kind of residual neat recovering systems, including blower, blower is arranged in top of heat source, bottom setting is used for the first sensor of detection blower fan load state, cooling duct is set around heat source, the water inlet end of cooling duct is connect by circulating pump with cyclic water tank feed water inlet, the direct-connected cyclic water tank water inlet in the water outlet of cooling duct, the water supplement port of cyclic water tank connects moisturizing pipeline by water compensating valve, the water outlet of cyclic water tank connects water tank by heat-exchanger pump, is sequentially arranged high water level sensor, middle water level sensor and water shortage level sensor from top to bottom in cyclic water tank；The residual neat recovering system further includes the controller for controlling blower and pump, valve start and stop.The system can realize the cooperation and independently operated automatic switchover of each intermodule, improve waste heat recovery rate and energy utilization rate.

Description

A kind of residual neat recovering system

Technical field

The utility model relates to heat recovery fields, concretely relate to a kind of residual neat recovering system.

Background technique

A large amount of waste heats can be generated in industrial production, at present in practical UTILIZATION OF VESIDUAL HEAT IN, most of residual heat system is only answered For preheated air, small part residual heat system can apply to production, life bathing water, so that heat recovery efficiency is lower.And And the control of hot water temperature is very unsatisfactory, for electric-control system there are unreasonable place in process flow, each intermodule can not be real Now cooperate and independently operated normal switching.

Summary of the invention

The problem of for background technique, in order to overcome the deficiencies of the prior art, the utility model, disclose a kind of waste heat Recovery system, the system can realize the cooperation and independently operated automatic switchover of each intermodule, improve waste heat recovery rate and the energy Utilization rate.

A kind of residual neat recovering system, including blower, the blower setting are used in top of heat source, the blower bottom setting Cooling duct is arranged around heat source in the first sensor of detection blower fan load state, and the water inlet end of the cooling duct passes through circulating pump It is connect with cyclic water tank feed water inlet, the direct-connected cyclic water tank water inlet in the water outlet of the cooling duct, the moisturizing of the cyclic water tank Mouth connects moisturizing pipeline by water compensating valve, and the water outlet of the cyclic water tank passes through heat-exchanger pump and connects water tank, the recirculated water High water level sensor, middle water level sensor and water shortage level sensor are sequentially arranged in case from top to bottom；The residual neat recovering system is also Controller including controlling blower and pump, valve start and stop.

Preferably, the cooling duct is centered around outside heat source in multi-circle spiral flow shape；

Preferably, water level sensor is arranged in the water tank；

Preferably, fault alarm buzzer is set on the blower；

Preferably, indicator light is set on the controller；

Preferably, operation button lamp is set on the controller；

Preferably, state display is set on the controller；

Preferably, the water compensating valve is ball-type switch valve；

Preferably, the water supply sky of the cyclic water tank and water outlet are respectively positioned on cyclic water tank bottom；

Preferably, the water supplement port of the cyclic water tank is located at water inlet top.

Beneficial effect acquired by the utility model is:

(1) residual neat recovering system realizes thermal energy most by the cooperation and independent operating of sensor and pump, valve and blower Optimization recycles.

(2) buzzer is arranged in the system, can find in time failure and repair, and reduces system failure rate and production loss.

(3) system can realize the cooperation and independently operated automatic switchover of each intermodule, improve waste heat recovery rate and energy Source utilization rate.

Detailed description of the invention

In order to illustrate the embodiment of the utility model or the technical proposal in the existing technology more clearly, below will be to embodiment Or attached drawing needed to be used in the description of the prior art is briefly described, it should be apparent that, the accompanying drawings in the following description is this Some embodiments of utility model, for those of ordinary skill in the art, without creative efforts, also Other drawings may be obtained according to these drawings without any creative labor.

Fig. 1 is the utility model residual neat recovering system schematic diagram；

Fig. 2 is controller panel layout；

In figure, 1, heat source, 2, blower, 3, water compensating valve, 4, cooling duct, 5, circulating pump, 6, cyclic water tank, 7, heat-exchanger pump, 8, Water tank

Specific embodiment

It is noted that following detailed description is all illustrative, it is intended to provide further instruction to the application.Unless another It indicates, all technical and scientific terms used herein has usual with the application person of an ordinary skill in the technical field The identical meanings of understanding.

It should be noted that term used herein above is merely to describe specific embodiment, and be not intended to restricted root According to the illustrative embodiments of the application.As used herein, unless the context clearly indicates otherwise, otherwise singular Also it is intended to include plural form, additionally, it should be understood that, when in the present specification using term "comprising" and/or " packet Include " when, indicate existing characteristics, step, operation, device, component and/or their combination.

A kind of residual neat recovering system as shown in Figs. 1-2 is arranged on blower 2 including the blower 2 at the top of heat source 1 is arranged in Fault alarm buzzer, the bottom setting of blower 2 are used for the first sensor of detection blower fan load state, the setting of 1 surrounding of heat source The water inlet end of multi-circle spiral flow shape cooling duct 3, cooling duct 4 is connect by circulating pump 5 with 6 feed water inlet of cyclic water tank, and cooling duct 4 goes out The water supplement port of direct-connected 6 water inlet of cyclic water tank of water end (W.E.), cyclic water tank 6 connects moisturizing pipeline by water compensating valve 3, cyclic water tank 6 Water outlet connects water tank 8 by heat-exchanger pump 7, and water level sensor is arranged in water tank 8, successively cloth from top to bottom in cyclic water tank 6 Set high water level sensor, middle water level sensor and water shortage level sensor；The residual neat recovering system further includes control blower and pump, valve The controller of start and stop.Indicator light, operation button lamp and state display are set on the controller.

The device specific work process is as follows:

Controller display shows current water temperature state, cyclic water tank state and water tank state after booting, when in heat source 1 The temperature sensor in portion detects that heat source temperature reaches the first setting value, sends signal, controller receiving signal to controller With the detection signal of water level sensor, when water level sensor detects that signal is water temperature lower than setting value, and there is water in water shortage position, control Device processed issues enabled instruction to circulating pump 5, when temperature sensor detects heat source temperature lower than the first setting value or level sensor Device detects that water shortage position is anhydrous, to controller transmission signal, issues finger out of service to circulating pump 5 after controller reception signal It enables.

Temperature sensor inside heat source 1 detects that heat source temperature reaches the second setting value, sends signal to controller, Controller issues the instruction starting operation of blower 2 after receiving signal, when temperature sensor detects heat source temperature lower than the second setting Value, to controller transmission signal, sending instruction stops the operation of blower 2 after controller receives signal.When first sensor detects When blower 2 overloads, stops blower 2 and run, fault alarm buzzer warning.

When 3 water of water compensating valve opens temperature and 3 water of water compensating valve and closes temperature and be set as 0 in controller, water level control is pressed in moisturizing: detection Water level is lower than water shortage position, starts moisturizing, after water level reaches high water level, stops moisturizing；After booting, heat-exchanger pump 7 is in shutdown status When, sensed water level is lower than middle water level, starts moisturizing, and water level stops moisturizing after reaching high water level.

When 3 water of water compensating valve opens temperature and water compensating valve water pass temperature is not 0, moisturizing is controlled by water temperature: after booting, sensor Sensed water level is lower than water shortage position, starts moisturizing, and after water level is higher than water shortage position, water compensating valve 3 is opened by the water compensating valve of user setting Temperature closes temperature movement with water compensating valve, opens temperature when detection water temperature is higher than the water compensating valve being arranged, and water level is not up to high water level, Water compensating valve is opened, and moisturizing is started, and until detection water temperature closes temperature lower than water compensating valve, or after detecting high water level, water compensating valve is closed Movement stops moisturizing.Water temperature controls the application for being generally used for big cyclic water tank, can not connect heat-exchanger pump and hot water Case.

When water temperature sensor detects that water temperature is higher than setting value in cyclic water tank, and water level sensor detects that middle water level has Water, and water tank sensor detects that water tank is less than, issues signal to controller, controller issues instruction, and heat-exchanger pump 7 is opened, When water level sensor detects that middle water level is anhydrous or water tank sensor detects that water tank 8 is full in cyclic water tank 6, to control Device issues signal, and controller issues instruction, and heat-exchanger pump 7 closes；When heat-exchanger pump sensor detects that heat-exchanger pump 7 overloads, stop hot water Pump operation.

Above-mentioned, although the foregoing specific embodiments of the present invention is described with reference to the accompanying drawings, not protects model to the present invention The limitation enclosed, those skilled in the art should understand that, based on the technical solutions of the present invention, those skilled in the art are not Need to make the creative labor the various modifications or changes that can be made still within protection scope of the present invention.

Claims (10)

1. a kind of residual neat recovering system, which is characterized in that including blower, the blower is arranged in top of heat source, the fan bottom Portion's setting is used for the first sensor of detection blower fan load state, and cooling duct, the water inlet end of the cooling duct is arranged around heat source It is connect by circulating pump with cyclic water tank feed water inlet, the direct-connected cyclic water tank water inlet in the water outlet of the cooling duct, the circulation The water supplement port of water tank connects moisturizing pipeline by water compensating valve, and the water outlet of the cyclic water tank connects water tank by heat-exchanger pump, High water level sensor, middle water level sensor and water shortage level sensor are sequentially arranged in the cyclic water tank from top to bottom；The waste heat Recovery system further includes the controller for controlling blower and pump, valve start and stop.

2. a kind of residual neat recovering system as described in claim 1, which is characterized in that the cooling duct is surrounded in multi-circle spiral flow shape Outside heat source.

3. a kind of residual neat recovering system as described in claim 1, which is characterized in that water level sensor is arranged in the water tank.

4. a kind of residual neat recovering system as described in claim 1, which is characterized in that fault alarm buzzing is arranged on the blower Device.

5. a kind of residual neat recovering system as described in claim 1, which is characterized in that indicator light is arranged on the controller.

6. a kind of residual neat recovering system as described in claim 1, which is characterized in that operation button is arranged on the controller Lamp.

7. a kind of residual neat recovering system as described in claim 1, which is characterized in that status display is arranged on the controller Screen.

8. a kind of residual neat recovering system as described in claim 1, which is characterized in that the water compensating valve is ball-type switch valve.

9. a kind of residual neat recovering system as described in claim 1, which is characterized in that the water supply of the cyclic water tank is empty and is discharged Mouth is respectively positioned on cyclic water tank bottom.

10. a kind of residual neat recovering system as described in claim 1, which is characterized in that the water supplement port of the cyclic water tank is located at Water inlet top.